id sid tid token lemma pos work_3hmjyh2idvdjhhu4yylbu2uwye 1 1 Diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 1 2 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 3 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 4 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 1 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 1 6 LHC lhc NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 7 collider collider NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 8 9 9 CD work_3hmjyh2idvdjhhu4yylbu2uwye 1 9 September September NNP work_3hmjyh2idvdjhhu4yylbu2uwye 1 10 1994 1994 CD work_3hmjyh2idvdjhhu4yylbu2uwye 1 11 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 1 12 Output Output NNP work_3hmjyh2idvdjhhu4yylbu2uwye 1 13 Geneva Geneva NNP work_3hmjyh2idvdjhhu4yylbu2uwye 1 14 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 1 15 Switzerland Switzerland NNP work_3hmjyh2idvdjhhu4yylbu2uwye 1 16 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 17 acceptance acceptance NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 18 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 1 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 1 20 reconstruction reconstruction NN work_3hmjyh2idvdjhhu4yylbu2uwye 1 21 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 1 22 forward forward JJ work_3hmjyh2idvdjhhu4yylbu2uwye 1 23 spectrometers spectrometer NNS work_3hmjyh2idvdjhhu4yylbu2uwye 1 24 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 2 1 closer close RBR work_3hmjyh2idvdjhhu4yylbu2uwye 2 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 2 3 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 2 4 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 2 5 direction direction NN work_3hmjyh2idvdjhhu4yylbu2uwye 2 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 3 1 This this DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 2 may may MD work_3hmjyh2idvdjhhu4yylbu2uwye 3 3 offer offer VB work_3hmjyh2idvdjhhu4yylbu2uwye 3 4 some some DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 5 advantages advantage NNS work_3hmjyh2idvdjhhu4yylbu2uwye 3 6 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 3 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 8 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 3 9 hemisphere hemisphere VBP work_3hmjyh2idvdjhhu4yylbu2uwye 3 10 opposite opposite JJ work_3hmjyh2idvdjhhu4yylbu2uwye 3 11 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 3 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 13 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 3 14 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 15 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 3 16 follows follow VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 3 17 triggering trigger VBG work_3hmjyh2idvdjhhu4yylbu2uwye 3 18 on on IN work_3hmjyh2idvdjhhu4yylbu2uwye 3 19 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 3 20 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 3 21 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 3 22 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 23 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 24 system system NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 25 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 3 26 boosted boost VBN work_3hmjyh2idvdjhhu4yylbu2uwye 3 27 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 3 28 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 29 topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 30 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 3 31 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 32 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 33 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 3 34 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 3 35 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 3 36 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 3 37 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 3 38 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 3 39 given give VBN work_3hmjyh2idvdjhhu4yylbu2uwye 3 40 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 4 1 When when WRB work_3hmjyh2idvdjhhu4yylbu2uwye 4 2 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 3 - - NNS work_3hmjyh2idvdjhhu4yylbu2uwye 4 4 sections section NNS work_3hmjyh2idvdjhhu4yylbu2uwye 4 5 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 4 6 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 7 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 8 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 4 9 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 4 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 4 11 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 4 12 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 4 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 4 14 collisions collision NNS work_3hmjyh2idvdjhhu4yylbu2uwye 4 15 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 4 16 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 4 17 LHC lhc NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 18 we -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 4 19 discuss discuss VBP work_3hmjyh2idvdjhhu4yylbu2uwye 4 20 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 4 21 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 22 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 4 23 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 4 24 those those DT work_3hmjyh2idvdjhhu4yylbu2uwye 4 25 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 4 26 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 5 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 2 Using use VBG work_3hmjyh2idvdjhhu4yylbu2uwye 5 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 4 framework framework NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 5 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 5 6 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 7 exchange exchange NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 8 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 5 9 describe describe VB work_3hmjyh2idvdjhhu4yylbu2uwye 5 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 5 11 pp pp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 12 Ahsgact Ahsgact NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 13 K. K. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 14 Eggert Eggert NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 15 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 5 16 A. A. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 17 Morsch Morsch NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 18 Diffractive Diffractive NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 19 Beauty Beauty NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 20 Production Production NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 21 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 5 22 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 23 LHC LHC NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 24 Collider Collider NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 25 Xu Xu NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 26 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 5 27 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 5 28 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 5 29 O o UH work_3hmjyh2idvdjhhu4yylbu2uwye 5 30 CERN CERN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 31 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 5 32 AT—94 AT—94 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 33 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 5 34 10 10 CD work_3hmjyh2idvdjhhu4yylbu2uwye 5 35 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 5 36 CERN CERN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 37 AT/94 AT/94 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 38 10 10 CD work_3hmjyh2idvdjhhu4yylbu2uwye 5 39 < < XX work_3hmjyh2idvdjhhu4yylbu2uwye 5 40 ¤¤llllllllllllllllllllllllllllllllllllillll ¤¤llllllllllllllllllllllllllllllllllllillll RB work_3hmjyh2idvdjhhu4yylbu2uwye 5 41 CERN CERN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 42 LIBRARIES library NNS work_3hmjyh2idvdjhhu4yylbu2uwye 5 43 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 5 44 GENEVA GENEVA NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 45 EUROPEAN EUROPEAN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 46 ORGANIZATION organization NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 47 FOR for IN work_3hmjyh2idvdjhhu4yylbu2uwye 5 48 NUCLEAR NUCLEAR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 5 49 RESEARCH research VB work_3hmjyh2idvdjhhu4yylbu2uwye 5 50 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 51 presence presence NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 52 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 5 53 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 54 pseudorapidity pseudorapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 55 gap gap NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 56 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 5 57 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 58 method method NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 59 frequently frequently RB work_3hmjyh2idvdjhhu4yylbu2uwye 5 60 used use VBN work_3hmjyh2idvdjhhu4yylbu2uwye 5 61 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 5 62 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 5 63 past past NN work_3hmjyh2idvdjhhu4yylbu2uwye 5 64 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 6 1 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 6 2 Output Output NNP work_3hmjyh2idvdjhhu4yylbu2uwye 6 3 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 6 4 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 6 5 losses loss NNS work_3hmjyh2idvdjhhu4yylbu2uwye 6 6 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 6 7 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 6 8 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 6 9 not not RB work_3hmjyh2idvdjhhu4yylbu2uwye 6 10 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 6 11 directly directly RB work_3hmjyh2idvdjhhu4yylbu2uwye 6 12 detected detect VBN work_3hmjyh2idvdjhhu4yylbu2uwye 6 13 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 6 14 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 6 15 thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 6 16 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 6 17 identified identify VBN work_3hmjyh2idvdjhhu4yylbu2uwye 6 18 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 6 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 6 20 hemisphere hemisphere NN work_3hmjyh2idvdjhhu4yylbu2uwye 6 21 opposite opposite IN work_3hmjyh2idvdjhhu4yylbu2uwye 6 22 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 6 23 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 6 24 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 6 25 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 7 1 Low low JJ work_3hmjyh2idvdjhhu4yylbu2uwye 7 2 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 7 3 diffraction diffraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 7 4 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 7 5 M M NNP work_3hmjyh2idvdjhhu4yylbu2uwye 7 6 < < XX work_3hmjyh2idvdjhhu4yylbu2uwye 7 7 0.5 0.5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 7 8 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 7 9 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 7 10 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 7 11 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 7 12 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 7 13 sketched sketch VBN work_3hmjyh2idvdjhhu4yylbu2uwye 7 14 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 8 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 8 2 lower low JJR work_3hmjyh2idvdjhhu4yylbu2uwye 8 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 8 4 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 8 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 8 6 more more RBR work_3hmjyh2idvdjhhu4yylbu2uwye 8 7 forward forward IN work_3hmjyh2idvdjhhu4yylbu2uwye 8 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 8 9 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 8 10 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 8 11 emitted emit VBN work_3hmjyh2idvdjhhu4yylbu2uwye 8 12 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 8 13 In in IN work_3hmjyh2idvdjhhu4yylbu2uwye 8 14 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 8 15 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 9 1 lc lc NNP work_3hmjyh2idvdjhhu4yylbu2uwye 9 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 9 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 9 4 pseudo pseudo NN work_3hmjyh2idvdjhhu4yylbu2uwye 9 5 rapidity rapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 9 6 distributions distribution NNS work_3hmjyh2idvdjhhu4yylbu2uwye 9 7 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 9 8 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 9 9 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 9 10 two two CD work_3hmjyh2idvdjhhu4yylbu2uwye 9 11 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 9 12 excited excite VBN work_3hmjyh2idvdjhhu4yylbu2uwye 9 13 favourable favourable JJ work_3hmjyh2idvdjhhu4yylbu2uwye 9 14 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 9 15 these these DT work_3hmjyh2idvdjhhu4yylbu2uwye 9 16 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 9 17 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 10 1 kinematics kinematic NNS work_3hmjyh2idvdjhhu4yylbu2uwye 10 2 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 10 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 10 4 signal signal NN work_3hmjyh2idvdjhhu4yylbu2uwye 10 5 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 10 6 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 10 7 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 10 8 background background NN work_3hmjyh2idvdjhhu4yylbu2uwye 10 9 ratio ratio NN work_3hmjyh2idvdjhhu4yylbu2uwye 10 10 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 10 11 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 10 12 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 10 13 may may MD work_3hmjyh2idvdjhhu4yylbu2uwye 10 14 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 10 15 more more RBR work_3hmjyh2idvdjhhu4yylbu2uwye 10 16 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 10 17 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 10 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 10 19 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 10 20 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 10 21 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 10 22 pp pp NN work_3hmjyh2idvdjhhu4yylbu2uwye 10 23 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 10 24 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 11 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 11 2 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 11 3 therefore therefore RB work_3hmjyh2idvdjhhu4yylbu2uwye 11 4 not not RB work_3hmjyh2idvdjhhu4yylbu2uwye 11 5 excluded exclude VBN work_3hmjyh2idvdjhhu4yylbu2uwye 11 6 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 11 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 11 8 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 11 9 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 11 10 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 11 11 most most JJS work_3hmjyh2idvdjhhu4yylbu2uwye 11 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 11 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 11 14 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 11 15 going go VBG work_3hmjyh2idvdjhhu4yylbu2uwye 11 16 along along IN work_3hmjyh2idvdjhhu4yylbu2uwye 11 17 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 11 18 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 11 19 system system NN work_3hmjyh2idvdjhhu4yylbu2uwye 11 20 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 11 21 quite quite RB work_3hmjyh2idvdjhhu4yylbu2uwye 11 22 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 11 23 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 11 24 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 11 25 lead lead VB work_3hmjyh2idvdjhhu4yylbu2uwye 11 26 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 11 27 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 11 28 substantial substantial JJ work_3hmjyh2idvdjhhu4yylbu2uwye 11 29 heavy heavy JJ work_3hmjyh2idvdjhhu4yylbu2uwye 11 30 flavour flavour NN work_3hmjyh2idvdjhhu4yylbu2uwye 11 31 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 11 32 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 12 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 12 2 topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 3 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 12 4 therefore therefore RB work_3hmjyh2idvdjhhu4yylbu2uwye 12 5 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 12 6 interesting interesting JJ work_3hmjyh2idvdjhhu4yylbu2uwye 12 7 question question NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 8 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 12 9 ask ask VB work_3hmjyh2idvdjhhu4yylbu2uwye 12 10 whether whether IN work_3hmjyh2idvdjhhu4yylbu2uwye 12 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 12 12 possibly possibly RB work_3hmjyh2idvdjhhu4yylbu2uwye 12 13 enhanced enhance VBN work_3hmjyh2idvdjhhu4yylbu2uwye 12 14 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 15 flux flux NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 16 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 12 17 Heavy heavy JJ work_3hmjyh2idvdjhhu4yylbu2uwye 12 18 flavours flavour NNS work_3hmjyh2idvdjhhu4yylbu2uwye 12 19 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 12 20 like like IN work_3hmjyh2idvdjhhu4yylbu2uwye 12 21 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 22 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 12 23 top top NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 24 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 12 25 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 12 26 mainly mainly RB work_3hmjyh2idvdjhhu4yylbu2uwye 12 27 produced produce VBN work_3hmjyh2idvdjhhu4yylbu2uwye 12 28 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 12 29 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 12 30 interactions interaction NNS work_3hmjyh2idvdjhhu4yylbu2uwye 12 31 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 13 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 13 2 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 13 3 interacts interact NNS work_3hmjyh2idvdjhhu4yylbu2uwye 13 4 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 13 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 13 6 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 13 7 constituents constituent NNS work_3hmjyh2idvdjhhu4yylbu2uwye 13 8 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 14 1 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 14 2 seems seem VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 14 3 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 14 4 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 14 5 rather rather RB work_3hmjyh2idvdjhhu4yylbu2uwye 14 6 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 14 7 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 14 8 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 14 9 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 14 10 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 15 1 Thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 15 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 15 3 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 15 4 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 15 5 beam beam NN work_3hmjyh2idvdjhhu4yylbu2uwye 15 6 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 15 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 15 8 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 15 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 15 10 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 15 11 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 15 12 seen see VBN work_3hmjyh2idvdjhhu4yylbu2uwye 15 13 as as IN work_3hmjyh2idvdjhhu4yylbu2uwye 15 14 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 15 15 multi multi JJ work_3hmjyh2idvdjhhu4yylbu2uwye 15 16 - - JJ work_3hmjyh2idvdjhhu4yylbu2uwye 15 17 gluon gluon JJ work_3hmjyh2idvdjhhu4yylbu2uwye 15 18 state state NN work_3hmjyh2idvdjhhu4yylbu2uwye 15 19 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 16 1 Measurements measurement NNS work_3hmjyh2idvdjhhu4yylbu2uwye 16 2 indicate indicate VBP work_3hmjyh2idvdjhhu4yylbu2uwye 16 3 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 16 4 its -PRON- PRP$ work_3hmjyh2idvdjhhu4yylbu2uwye 16 5 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 16 6 way way NN work_3hmjyh2idvdjhhu4yylbu2uwye 16 7 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 16 8 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 16 9 beam beam NN work_3hmjyh2idvdjhhu4yylbu2uwye 16 10 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 16 11 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 16 12 defined define VBN work_3hmjyh2idvdjhhu4yylbu2uwye 16 13 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 16 14 momenta momenta NNP work_3hmjyh2idvdjhhu4yylbu2uwye 16 15 between between IN work_3hmjyh2idvdjhhu4yylbu2uwye 16 16 10 10 CD work_3hmjyh2idvdjhhu4yylbu2uwye 16 17 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 16 18 1000 1000 CD work_3hmjyh2idvdjhhu4yylbu2uwye 16 19 GeV. GeV. NNS work_3hmjyh2idvdjhhu4yylbu2uwye 17 1 Often often RB work_3hmjyh2idvdjhhu4yylbu2uwye 17 2 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 17 3 10·3 10·3 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 17 4 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 17 5 10‘1 10‘1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 17 6 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 17 7 means mean NNS work_3hmjyh2idvdjhhu4yylbu2uwye 17 8 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 17 9 Roman roman JJ work_3hmjyh2idvdjhhu4yylbu2uwye 17 10 pots pot NNS work_3hmjyh2idvdjhhu4yylbu2uwye 17 11 placed place VBD work_3hmjyh2idvdjhhu4yylbu2uwye 17 12 upstream upstream NN work_3hmjyh2idvdjhhu4yylbu2uwye 17 13 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 17 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 17 15 straight straight JJ work_3hmjyh2idvdjhhu4yylbu2uwye 17 16 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 17 17 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 18 1 In in IN work_3hmjyh2idvdjhhu4yylbu2uwye 18 2 such such JJ work_3hmjyh2idvdjhhu4yylbu2uwye 18 3 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 18 4 As as IN work_3hmjyh2idvdjhhu4yylbu2uwye 18 5 described describe VBN work_3hmjyh2idvdjhhu4yylbu2uwye 18 6 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 18 7 Ref Ref NNP work_3hmjyh2idvdjhhu4yylbu2uwye 18 8 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 19 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 19 2 3 3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 19 4 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 19 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 19 6 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 19 7 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 8 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 9 écan écan NNS work_3hmjyh2idvdjhhu4yylbu2uwye 19 10 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 19 11 measured measure VBN work_3hmjyh2idvdjhhu4yylbu2uwye 19 12 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 19 14 range range NNP work_3hmjyh2idvdjhhu4yylbu2uwye 19 15 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 19 16 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 17 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 19 18 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 19 19 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 20 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 19 21 LHC lhc NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 22 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 19 23 therefore therefore RB work_3hmjyh2idvdjhhu4yylbu2uwye 19 24 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 25 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 19 26 range range NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 27 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 28 lO‘to lo‘to CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 29 108 108 CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 30 ‘ ‘ CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 31 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 32 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 33 corresponds correspond NNS work_3hmjyh2idvdjhhu4yylbu2uwye 19 34 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 35 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 19 36 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 37 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 19 38 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 19 39 additional additional JJ work_3hmjyh2idvdjhhu4yylbu2uwye 19 40 pion pion NN work_3hmjyh2idvdjhhu4yylbu2uwye 19 41 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 20 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 2 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 3 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 4 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 6 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 7 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 8 above above IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 9 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 20 10 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 20 11 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 20 12 limited limit VBN work_3hmjyh2idvdjhhu4yylbu2uwye 20 13 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 15 coherence coherence NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 16 condition condition NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 17 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 20 18 whereas whereas IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 20 lowest low JJS work_3hmjyh2idvdjhhu4yylbu2uwye 20 21 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 22 largest large JJS work_3hmjyh2idvdjhhu4yylbu2uwye 20 23 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 24 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 25 leading lead VBG work_3hmjyh2idvdjhhu4yylbu2uwye 20 26 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 27 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 28 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 20 29 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 30 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 31 around around IN work_3hmjyh2idvdjhhu4yylbu2uwye 20 32 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 20 33 TeV tev NN work_3hmjyh2idvdjhhu4yylbu2uwye 20 34 or or CC work_3hmjyh2idvdjhhu4yylbu2uwye 20 35 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 20 36 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 20 37 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 20 38 2)<;1 1>1 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 21 12 · · NFP work_3hmjyh2idvdjhhu4yylbu2uwye 21 13 X x NN work_3hmjyh2idvdjhhu4yylbu2uwye 21 14 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 21 15 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 21 16 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 21 17 relative relative JJ work_3hmjyh2idvdjhhu4yylbu2uwye 21 18 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 21 19 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 21 20 § § ADD work_3hmjyh2idvdjhhu4yylbu2uwye 21 21 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 21 22 Ap Ap NNP work_3hmjyh2idvdjhhu4yylbu2uwye 21 23 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 21 24 po po NNP work_3hmjyh2idvdjhhu4yylbu2uwye 21 25 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 21 26 x=1-Q. x=1-Q. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 2 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 3 M m NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 4 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 6 system system NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 7 X x NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 8 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 9 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 22 10 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 11 other other JJ work_3hmjyh2idvdjhhu4yylbu2uwye 22 12 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 13 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 22 14 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 22 15 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 22 16 related relate VBN work_3hmjyh2idvdjhhu4yylbu2uwye 22 17 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 18 this this DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 19 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 20 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 22 21 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 22 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 23 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 24 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 25 leaving leave VBG work_3hmjyh2idvdjhhu4yylbu2uwye 22 26 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 27 proton proton NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 28 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 29 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 30 beam beam NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 31 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 32 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 33 mass mass NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 34 M M NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 35 recoiling recoil VBG work_3hmjyh2idvdjhhu4yylbu2uwye 22 36 against against IN work_3hmjyh2idvdjhhu4yylbu2uwye 22 37 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 22 38 intact intact JJ work_3hmjyh2idvdjhhu4yylbu2uwye 22 39 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 22 40 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 22 41 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 22 42 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 23 1 1a 1a NNP work_3hmjyh2idvdjhhu4yylbu2uwye 23 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 23 3 b b LS work_3hmjyh2idvdjhhu4yylbu2uwye 23 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 23 5 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 24 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 2 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 3 has have VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 24 4 taken take VBN work_3hmjyh2idvdjhhu4yylbu2uwye 24 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 6 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 7 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 24 8 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 9 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 24 10 interacts interact VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 24 11 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 13 other other JJ work_3hmjyh2idvdjhhu4yylbu2uwye 24 14 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 15 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 24 16 thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 24 17 produces produce VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 24 18 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 19 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 24 20 system system NN work_3hmjyh2idvdjhhu4yylbu2uwye 24 21 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 22 currently currently RB work_3hmjyh2idvdjhhu4yylbu2uwye 24 23 believed believe VBN work_3hmjyh2idvdjhhu4yylbu2uwye 24 24 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 25 single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 24 26 diffraction diffraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 24 27 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 24 28 mediated mediate VBN work_3hmjyh2idvdjhhu4yylbu2uwye 24 29 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 30 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 31 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 32 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 24 33 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 24 34 being be VBG work_3hmjyh2idvdjhhu4yylbu2uwye 24 35 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 36 part part NN work_3hmjyh2idvdjhhu4yylbu2uwye 24 37 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 24 38 have have VBP work_3hmjyh2idvdjhhu4yylbu2uwye 24 39 been be VBN work_3hmjyh2idvdjhhu4yylbu2uwye 24 40 studied study VBN work_3hmjyh2idvdjhhu4yylbu2uwye 24 41 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 24 42 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 43 ISR ISR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 44 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 24 45 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 24 46 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 47 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 24 48 antiproton antiproton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 24 49 collider collider NN work_3hmjyh2idvdjhhu4yylbu2uwye 24 50 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 25 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 25 2 is[2][1 is[2][1 VBD work_3hmjyh2idvdjhhu4yylbu2uwye 25 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 25 4 Inelastic inelastic JJ work_3hmjyh2idvdjhhu4yylbu2uwye 25 5 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 25 6 processes process NNS work_3hmjyh2idvdjhhu4yylbu2uwye 25 7 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 25 8 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 25 9 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 25 10 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 25 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 25 12 two two CD work_3hmjyh2idvdjhhu4yylbu2uwye 25 13 protons proton NNS work_3hmjyh2idvdjhhu4yylbu2uwye 25 14 stay stay VBP work_3hmjyh2idvdjhhu4yylbu2uwye 25 15 intact intact JJ work_3hmjyh2idvdjhhu4yylbu2uwye 25 16 but but CC work_3hmjyh2idvdjhhu4yylbu2uwye 25 17 looses loose VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 25 18 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 25 19 Output1 Output1 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 25 20 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 26 1 Introduction introduction NN work_3hmjyh2idvdjhhu4yylbu2uwye 26 2 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 26 3 .2 .2 CD work_3hmjyh2idvdjhhu4yylbu2uwye 26 4 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 26 5 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 26 6 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 26 7 OCR ocr NN work_3hmjyh2idvdjhhu4yylbu2uwye 26 8 Output-- Output-- NNS work_3hmjyh2idvdjhhu4yylbu2uwye 26 9 = = : work_3hmjyh2idvdjhhu4yylbu2uwye 26 10 fs;/p(xi’Q2)fzi fs;/p(xi’Q2)fzi NNP work_3hmjyh2idvdjhhu4yylbu2uwye 26 11 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 26 12 P(xi’Q2)`E% P(xi’Q2)`E% . work_3hmjyh2idvdjhhu4yylbu2uwye 26 13 dodo*(pIP dodo*(pip NN work_3hmjyh2idvdjhhu4yylbu2uwye 26 14 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 26 15 > > XX work_3hmjyh2idvdjhhu4yylbu2uwye 26 16 QQX qqx NN work_3hmjyh2idvdjhhu4yylbu2uwye 26 17 functions function NNS work_3hmjyh2idvdjhhu4yylbu2uwye 26 18 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 26 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 26 20 parton parton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 26 21 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 26 22 parton parton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 26 23 cross cross NNP work_3hmjyh2idvdjhhu4yylbu2uwye 26 24 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 26 25 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 27 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 27 2 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 27 3 scattering scatter VBG work_3hmjyh2idvdjhhu4yylbu2uwye 27 4 cross cross JJ work_3hmjyh2idvdjhhu4yylbu2uwye 27 5 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 6 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 7 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 27 8 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 27 9 product product NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 10 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 27 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 27 12 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 13 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 27 14 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 15 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 16 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 27 17 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 27 18 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 27 19 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 27 20 _ _ NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 21 _ _ NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 22 € € NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 23 ¤\lX ¤\lX : work_3hmjyh2idvdjhhu4yylbu2uwye 27 24 SD(.§m SD(.§m NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 25 < < XX work_3hmjyh2idvdjhhu4yylbu2uwye 27 26 § § ADD work_3hmjyh2idvdjhhu4yylbu2uwye 27 27 < < XX work_3hmjyh2idvdjhhu4yylbu2uwye 27 28 gm gm NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 29 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 27 30 - - : work_3hmjyh2idvdjhhu4yylbu2uwye 27 31 0.7 0.7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 27 32 mb mb PRP work_3hmjyh2idvdjhhu4yylbu2uwye 27 33 ln ln NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 34 pomeron pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 35 momentum momentum NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 36 range range NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 37 § § -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 27 38 mm<§<§maX mm<§<§maX NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 39 Integrating integrate VBG work_3hmjyh2idvdjhhu4yylbu2uwye 27 40 over over IN work_3hmjyh2idvdjhhu4yylbu2uwye 27 41 t t NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 42 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 27 43 § § ADD work_3hmjyh2idvdjhhu4yylbu2uwye 27 44 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 27 45 obtains obtain NNS work_3hmjyh2idvdjhhu4yylbu2uwye 27 46 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 27 47 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 27 48 total total JJ work_3hmjyh2idvdjhhu4yylbu2uwye 27 49 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 27 50 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 51 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 52 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 27 53 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 27 54 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 27 55 c1·oss c1·oss NNP work_3hmjyh2idvdjhhu4yylbu2uwye 27 56 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 57 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 27 58 12 12 CD work_3hmjyh2idvdjhhu4yylbu2uwye 27 59 mb/ mb/ NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 60 side side NN work_3hmjyh2idvdjhhu4yylbu2uwye 27 61 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 28 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 28 2 normalisation normalisation NN work_3hmjyh2idvdjhhu4yylbu2uwye 28 3 constant constant JJ work_3hmjyh2idvdjhhu4yylbu2uwye 28 4 C C NNP work_3hmjyh2idvdjhhu4yylbu2uwye 28 5 was be VBD work_3hmjyh2idvdjhhu4yylbu2uwye 28 6 set set VBN work_3hmjyh2idvdjhhu4yylbu2uwye 28 7 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 28 8 2.3 2.3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 28 9 mb mb NN work_3hmjyh2idvdjhhu4yylbu2uwye 28 10 GeV‘2 GeV‘2 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 28 11 corresponding correspond VBG work_3hmjyh2idvdjhhu4yylbu2uwye 28 12 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 28 13 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 28 14 total total JJ work_3hmjyh2idvdjhhu4yylbu2uwye 28 15 single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 28 16 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 28 17 u=2.8 u=2.8 JJ work_3hmjyh2idvdjhhu4yylbu2uwye 28 18 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 28 19 b b LS work_3hmjyh2idvdjhhu4yylbu2uwye 28 20 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 28 21 O.7 O.7 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 28 22 GeV GeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 28 23 ? ? . work_3hmjyh2idvdjhhu4yylbu2uwye 28 24 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 29 1 o’(pIP o’(pip CD work_3hmjyh2idvdjhhu4yylbu2uwye 29 2 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 29 3 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 29 4 > > XX work_3hmjyh2idvdjhhu4yylbu2uwye 29 5 X x NN work_3hmjyh2idvdjhhu4yylbu2uwye 29 6 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 29 7 = = NFP work_3hmjyh2idvdjhhu4yylbu2uwye 29 8 2.3 2.3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 29 9 mb mb NN work_3hmjyh2idvdjhhu4yylbu2uwye 29 10 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 29 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 29 12 total total JJ work_3hmjyh2idvdjhhu4yylbu2uwye 29 13 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 29 14 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 29 15 cross cross NNP work_3hmjyh2idvdjhhu4yylbu2uwye 29 16 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 29 17 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 30 1 · · NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 2 th th XX work_3hmjyh2idvdjhhu4yylbu2uwye 30 3 “ " `` work_3hmjyh2idvdjhhu4yylbu2uwye 30 4 " " `` work_3hmjyh2idvdjhhu4yylbu2uwye 30 5 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 6 m m CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 7 ‘ ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 30 8 - - : work_3hmjyh2idvdjhhu4yylbu2uwye 30 9 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 30 10 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 11 p p NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 12 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 30 13 .4 .4 . work_3hmjyh2idvdjhhu4yylbu2uwye 30 14 .... .... NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 15 .. .. NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 16 _ _ NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 17 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 30 18 M M NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 19 4m,2—t 4m,2—t CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 20 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 21 1-t 1-t CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 22 7 7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 23 zi zi CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 24 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 25 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 26 4),f 4),f CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 27 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 30 28 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 30 29 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 30 30 -lt- -lt- VB work_3hmjyh2idvdjhhu4yylbu2uwye 30 31 ; ; : work_3hmjyh2idvdjhhu4yylbu2uwye 30 32 = = NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 33 -1;- -1;- NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 34 · · NFP work_3hmjyh2idvdjhhu4yylbu2uwye 30 35 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 30 36 F F NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 37 f f NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 38 fP fP NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 39 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 30 40 Pg Pg NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 41 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 42 o·(pIP o·(pIP VBN work_3hmjyh2idvdjhhu4yylbu2uwye 30 43 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 30 44 > > XX work_3hmjyh2idvdjhhu4yylbu2uwye 30 45 X x NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 46 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 47 d§dt d§dt VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 30 48 o·(pIP o·(pip NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 49 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 30 50 + + NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 51 X X NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 52 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 53 gl gl NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 54 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 55 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 56 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 57 do do VBP work_3hmjyh2idvdjhhu4yylbu2uwye 30 58 C c NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 59 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 60 2 2 CD work_3hmjyh2idvdjhhu4yylbu2uwye 30 61 dependence dependence NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 62 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 30 63 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 30 64 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 65 form form NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 66 factor factor NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 67 F1(t F1(t NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 68 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 30 69 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 30 70 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 30 71 l/{dependence l/{dependence NN work_3hmjyh2idvdjhhu4yylbu2uwye 30 72 : : : work_3hmjyh2idvdjhhu4yylbu2uwye 30 73 As as IN work_3hmjyh2idvdjhhu4yylbu2uwye 30 74 described describe VBN work_3hmjyh2idvdjhhu4yylbu2uwye 30 75 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 30 76 Ref Ref NNP work_3hmjyh2idvdjhhu4yylbu2uwye 30 77 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 31 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 31 2 7 7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 31 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 31 4 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 31 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 31 6 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 31 7 flux flux NN work_3hmjyh2idvdjhhu4yylbu2uwye 31 8 factor factor NN work_3hmjyh2idvdjhhu4yylbu2uwye 31 9 was be VBD work_3hmjyh2idvdjhhu4yylbu2uwye 31 10 calculated calculate VBN work_3hmjyh2idvdjhhu4yylbu2uwye 31 11 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 31 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 31 13 t t NN work_3hmjyh2idvdjhhu4yylbu2uwye 31 14 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 31 15 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 31 16 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 31 17 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 31 18 t t NNP work_3hmjyh2idvdjhhu4yylbu2uwye 31 19 symbolises symbolise VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 31 20 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 31 21 independent independent JJ work_3hmjyh2idvdjhhu4yylbu2uwye 31 22 set set NN work_3hmjyh2idvdjhhu4yylbu2uwye 31 23 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 31 24 Mandelstam Mandelstam NNP work_3hmjyh2idvdjhhu4yylbu2uwye 31 25 variables variable NNS work_3hmjyh2idvdjhhu4yylbu2uwye 31 26 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 32 1 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 2 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 3 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 32 4 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 5 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 6 ; ; : work_3hmjyh2idvdjhhu4yylbu2uwye 32 7 t t NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 8 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 32 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 10 transverse transverse NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 11 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 12 squared square VBD work_3hmjyh2idvdjhhu4yylbu2uwye 32 13 transferred transfer VBN work_3hmjyh2idvdjhhu4yylbu2uwye 32 14 Here here RB work_3hmjyh2idvdjhhu4yylbu2uwye 32 15 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 32 16 xi xi NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 17 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 32 18 xi xi NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 19 denote denote VBP work_3hmjyh2idvdjhhu4yylbu2uwye 32 20 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 21 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 22 fractions fraction NNS work_3hmjyh2idvdjhhu4yylbu2uwye 32 23 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 32 24 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 25 interacting interact VBG work_3hmjyh2idvdjhhu4yylbu2uwye 32 26 partons parton NNS work_3hmjyh2idvdjhhu4yylbu2uwye 32 27 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 32 28 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 32 29 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 30 differential differential NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 31 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 32 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 33 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 32 34 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 35 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 32 36 scattering scattering NN work_3hmjyh2idvdjhhu4yylbu2uwye 32 37 between between IN work_3hmjyh2idvdjhhu4yylbu2uwye 32 38 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 39 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 40 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 32 41 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 32 42 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 32 43 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 33 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 2 first first JJ work_3hmjyh2idvdjhhu4yylbu2uwye 33 3 term term NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 4 on on IN work_3hmjyh2idvdjhhu4yylbu2uwye 33 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 6 right right JJ work_3hmjyh2idvdjhhu4yylbu2uwye 33 7 side side NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 8 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 33 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 10 pomeron pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 11 flux flux NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 12 factor factor NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 13 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 33 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 15 second second JJ work_3hmjyh2idvdjhhu4yylbu2uwye 33 16 one one NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 17 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 18 j j NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 19 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 33 20 f f NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 21 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 33 22 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 33 23 t t NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 24 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 33 25 agatdxaxai agatdxaxai NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 26 “ " `` work_3hmjyh2idvdjhhu4yylbu2uwye 33 27 ° ° NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 28 ’ ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 33 29 P p NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 30 ’ ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 33 31 ax.ax.aE ax.ax.aE NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 32 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 33 33 3 3 LS work_3hmjyh2idvdjhhu4yylbu2uwye 33 34 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 33 35 d¤(p11¤ d¤(p11¤ NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 36 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 33 37 > > NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 38 QQXd¤(pp qqxd¤(pp CD work_3hmjyh2idvdjhhu4yylbu2uwye 33 39 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 33 40 > > XX work_3hmjyh2idvdjhhu4yylbu2uwye 33 41 Qijx Qijx NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 42 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 33 43 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 33 44 differential differential NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 45 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 46 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 47 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 33 48 pp pp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 49 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 33 50 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 33 51 scattering scattering NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 52 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 33 53 : : : work_3hmjyh2idvdjhhu4yylbu2uwye 33 54 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 33 55 G. G. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 56 Ingelrnan Ingelrnan NNP work_3hmjyh2idvdjhhu4yylbu2uwye 33 57 etal etal NN work_3hmjyh2idvdjhhu4yylbu2uwye 33 58 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 34 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 34 2 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 34 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 34 4 PY'l'l py'l'l UH work_3hmjyh2idvdjhhu4yylbu2uwye 34 5 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 34 6 HA HA NNP work_3hmjyh2idvdjhhu4yylbu2uwye 34 7 5.7 5.7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 34 8 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 34 9 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 34 10 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 34 11 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 34 12 combination combination NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 13 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 34 14 POMPYT POMPYT NNP work_3hmjyh2idvdjhhu4yylbu2uwye 34 15 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 34 16 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 34 17 special special JJ work_3hmjyh2idvdjhhu4yylbu2uwye 34 18 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 34 19 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 20 generator generator NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 21 built build VBN work_3hmjyh2idvdjhhu4yylbu2uwye 34 22 To to TO work_3hmjyh2idvdjhhu4yylbu2uwye 34 23 simulate simulate VB work_3hmjyh2idvdjhhu4yylbu2uwye 34 24 heavy heavy JJ work_3hmjyh2idvdjhhu4yylbu2uwye 34 25 flavour flavour NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 26 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 27 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 34 28 single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 34 29 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 34 30 pp pp NN work_3hmjyh2idvdjhhu4yylbu2uwye 34 31 interactions interaction NNS work_3hmjyh2idvdjhhu4yylbu2uwye 34 32 we -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 34 33 used use VBD work_3hmjyh2idvdjhhu4yylbu2uwye 34 34 2 2 CD work_3hmjyh2idvdjhhu4yylbu2uwye 34 35 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 35 1 Simulation simulation NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 2 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 3 Diffractive Diffractive NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 4 Hard Hard NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 5 Scattering Scattering NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 6 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 35 7 3 3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 35 8 OCR ocr NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 9 Output Output NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 10 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 11 ones one NNS work_3hmjyh2idvdjhhu4yylbu2uwye 35 12 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 14 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 15 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 35 16 hence hence RB work_3hmjyh2idvdjhhu4yylbu2uwye 35 17 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 18 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 19 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 35 20 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 35 21 boosted boost VBN work_3hmjyh2idvdjhhu4yylbu2uwye 35 22 along along IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 23 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 24 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 25 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 26 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 35 27 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 35 28 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 35 29 10 10 CD work_3hmjyh2idvdjhhu4yylbu2uwye 35 30 % % NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 31 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 35 32 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 33 gluons gluon NNS work_3hmjyh2idvdjhhu4yylbu2uwye 35 34 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 35 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 35 36 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 37 have have VBP work_3hmjyh2idvdjhhu4yylbu2uwye 35 38 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 35 39 on on IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 40 average average JJ work_3hmjyh2idvdjhhu4yylbu2uwye 35 41 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 35 42 larger large JJR work_3hmjyh2idvdjhhu4yylbu2uwye 35 43 momenta momenta NNP work_3hmjyh2idvdjhhu4yylbu2uwye 35 44 than than IN work_3hmjyh2idvdjhhu4yylbu2uwye 35 45 direction direction NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 46 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 35 47 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 35 48 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 36 1 5 5 LS work_3hmjyh2idvdjhhu4yylbu2uwye 36 2 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 36 3 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 37 1 When when WRB work_3hmjyh2idvdjhhu4yylbu2uwye 37 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 3 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 37 4 takes take VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 37 5 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 6 substantial substantial JJ work_3hmjyh2idvdjhhu4yylbu2uwye 37 7 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 37 8 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 37 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 10 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 37 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 12 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 37 13 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 37 14 move move VBP work_3hmjyh2idvdjhhu4yylbu2uwye 37 15 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 37 16 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 17 opposite opposite JJ work_3hmjyh2idvdjhhu4yylbu2uwye 37 18 hemisphere hemisphere NN work_3hmjyh2idvdjhhu4yylbu2uwye 37 19 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 37 20 following follow VBG work_3hmjyh2idvdjhhu4yylbu2uwye 37 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 37 22 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 37 23 hemisphere hemisphere NN work_3hmjyh2idvdjhhu4yylbu2uwye 37 24 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 38 1 With with IN work_3hmjyh2idvdjhhu4yylbu2uwye 38 2 increasing increase VBG work_3hmjyh2idvdjhhu4yylbu2uwye 38 3 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 38 4 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 38 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 38 6 particle particle NN work_3hmjyh2idvdjhhu4yylbu2uwye 38 7 distribution distribution NN work_3hmjyh2idvdjhhu4yylbu2uwye 38 8 gets get VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 38 9 wider wide JJR work_3hmjyh2idvdjhhu4yylbu2uwye 38 10 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 38 11 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 38 12 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 38 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 38 14 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 38 15 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 38 16 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 38 17 go go VBP work_3hmjyh2idvdjhhu4yylbu2uwye 38 18 together together RB work_3hmjyh2idvdjhhu4yylbu2uwye 38 19 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 38 20 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 38 21 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 38 22 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 38 23 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 38 24 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 38 25 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 38 26 fimction fimction NN work_3hmjyh2idvdjhhu4yylbu2uwye 38 27 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 38 28 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 38 29 particular particular JJ work_3hmjyh2idvdjhhu4yylbu2uwye 38 30 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 38 31 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 38 32 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 38 33 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 39 1 At at IN work_3hmjyh2idvdjhhu4yylbu2uwye 39 2 low low JJ work_3hmjyh2idvdjhhu4yylbu2uwye 39 3 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 39 4 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 39 5 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 39 6 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 39 7 follow follow VBP work_3hmjyh2idvdjhhu4yylbu2uwye 39 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 39 9 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 39 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 39 11 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 39 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 39 13 distributions distribution NNS work_3hmjyh2idvdjhhu4yylbu2uwye 39 14 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 39 15 quite quite RB work_3hmjyh2idvdjhhu4yylbu2uwye 39 16 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 39 17 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 39 18 negative negative JJ work_3hmjyh2idvdjhhu4yylbu2uwye 39 19 ones one NNS work_3hmjyh2idvdjhhu4yylbu2uwye 39 20 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 39 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 39 22 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 39 23 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 40 1 Whereas whereas IN work_3hmjyh2idvdjhhu4yylbu2uwye 40 2 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 40 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 40 4 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 40 5 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 40 6 function function VBP work_3hmjyh2idvdjhhu4yylbu2uwye 40 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 40 8 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 40 9 functions function NNS work_3hmjyh2idvdjhhu4yylbu2uwye 40 10 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 41 1 Positive positive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 41 2 pseudorapidities pseudorapiditie NNS work_3hmjyh2idvdjhhu4yylbu2uwye 41 3 denote denote VBP work_3hmjyh2idvdjhhu4yylbu2uwye 41 4 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 41 5 hemisphere hemisphere NN work_3hmjyh2idvdjhhu4yylbu2uwye 41 6 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 41 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 41 8 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 41 9 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 41 10 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 41 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 41 12 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 41 13 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 41 14 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 41 15 shown show VBN work_3hmjyh2idvdjhhu4yylbu2uwye 41 16 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 41 17 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 41 18 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 42 1 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 42 2 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 42 3 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 42 4 a a LS work_3hmjyh2idvdjhhu4yylbu2uwye 42 5 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 42 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 42 7 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 42 8 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 42 9 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 42 10 b b LS work_3hmjyh2idvdjhhu4yylbu2uwye 42 11 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 42 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 42 13 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 42 14 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 42 15 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 42 16 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 42 17 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 43 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 2 average average JJ work_3hmjyh2idvdjhhu4yylbu2uwye 43 3 pseudorapidity pseudorapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 43 4 11 11 CD work_3hmjyh2idvdjhhu4yylbu2uwye 43 5 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 43 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 7 11-range 11-range CD work_3hmjyh2idvdjhhu4yylbu2uwye 43 8 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 43 9 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 43 10 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 43 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 12 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 43 13 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 43 14 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 15 following follow VBG work_3hmjyh2idvdjhhu4yylbu2uwye 43 16 figures figure NNS work_3hmjyh2idvdjhhu4yylbu2uwye 43 17 illustrate illustrate VBP work_3hmjyh2idvdjhhu4yylbu2uwye 43 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 19 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 43 20 kinematics kinematic NNS work_3hmjyh2idvdjhhu4yylbu2uwye 43 21 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 43 22 respect respect NN work_3hmjyh2idvdjhhu4yylbu2uwye 43 23 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 43 24 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 43 25 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 43 26 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 43 27 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 44 1 Topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 44 2 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 44 3 Diffractive Diffractive NNP work_3hmjyh2idvdjhhu4yylbu2uwye 44 4 Beauty Beauty NNP work_3hmjyh2idvdjhhu4yylbu2uwye 44 5 Events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 44 6 these these DT work_3hmjyh2idvdjhhu4yylbu2uwye 44 7 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 44 8 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 45 1 compared compare VBN work_3hmjyh2idvdjhhu4yylbu2uwye 45 2 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 45 3 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 45 4 pp pp NN work_3hmjyh2idvdjhhu4yylbu2uwye 45 5 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 45 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 46 1 We -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 46 2 therefore therefore RB work_3hmjyh2idvdjhhu4yylbu2uwye 46 3 study study VBP work_3hmjyh2idvdjhhu4yylbu2uwye 46 4 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 6 next next JJ work_3hmjyh2idvdjhhu4yylbu2uwye 46 7 chapter chapter NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 9 topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 10 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 11 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 46 12 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 46 13 have have VBP work_3hmjyh2idvdjhhu4yylbu2uwye 46 14 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 15 topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 16 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 46 17 allows allow VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 46 18 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 19 easier easy JJR work_3hmjyh2idvdjhhu4yylbu2uwye 46 20 distinction distinction NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 21 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 22 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 23 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 24 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 46 25 whether whether IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 26 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 46 27 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 46 28 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 29 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 30 excited excited JJ work_3hmjyh2idvdjhhu4yylbu2uwye 46 31 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 32 around around IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 33 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 46 34 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 46 35 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 46 36 emitted emit VBN work_3hmjyh2idvdjhhu4yylbu2uwye 46 37 opposite opposite IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 38 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 39 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 40 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 41 one one CD work_3hmjyh2idvdjhhu4yylbu2uwye 46 42 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 43 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 46 44 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 46 45 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 46 46 but but CC work_3hmjyh2idvdjhhu4yylbu2uwye 46 47 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 48 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 46 49 larger large JJR work_3hmjyh2idvdjhhu4yylbu2uwye 46 50 energy energy NN work_3hmjyh2idvdjhhu4yylbu2uwye 46 51 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 46 52 14 14 CD work_3hmjyh2idvdjhhu4yylbu2uwye 46 53 TeV. TeV. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 47 2 has have VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 47 3 now now RB work_3hmjyh2idvdjhhu4yylbu2uwye 47 4 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 47 5 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 47 6 seen see VBN work_3hmjyh2idvdjhhu4yylbu2uwye 47 7 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 47 8 charm charm NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 9 content content NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 10 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 11 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 12 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 47 13 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 14 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 47 15 sub sub NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 16 energy energy NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 17 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 18 ~ ~ NFP work_3hmjyh2idvdjhhu4yylbu2uwye 47 19 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 47 20 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 21 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 47 22 comparable comparable JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 23 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 24 In in IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 25 our -PRON- PRP$ work_3hmjyh2idvdjhhu4yylbu2uwye 47 26 assumed assumed JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 27 scenario scenario NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 28 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 47 29 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 30 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 47 31 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 47 32 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 33 consist consist VBP work_3hmjyh2idvdjhhu4yylbu2uwye 47 34 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 35 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 36 gluons gluon NNS work_3hmjyh2idvdjhhu4yylbu2uwye 47 37 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 47 38 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 47 39 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 40 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 41 pp pp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 42 collisions collision NNS work_3hmjyh2idvdjhhu4yylbu2uwye 47 43 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 47 44 w w NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 45 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 47 46 s s NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 47 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 47 48 l4 l4 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 49 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 47 50 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 47 51 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 47 52 whereas whereas IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 53 it -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 47 54 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 47 55 above above IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 56 100 100 CD work_3hmjyh2idvdjhhu4yylbu2uwye 47 57 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 47 58 low low JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 59 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 47 60 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 47 61 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 47 62 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 47 63 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 48 1 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 48 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 49 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 49 2 charm charm NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 3 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 49 4 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 5 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 49 6 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 7 ratio ratio NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 8 approaches approach NNS work_3hmjyh2idvdjhhu4yylbu2uwye 49 9 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 10 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 49 11 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 49 12 10 10 CD work_3hmjyh2idvdjhhu4yylbu2uwye 49 13 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 49 14 20 20 CD work_3hmjyh2idvdjhhu4yylbu2uwye 49 15 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 49 16 also also RB work_3hmjyh2idvdjhhu4yylbu2uwye 49 17 similar similar JJ work_3hmjyh2idvdjhhu4yylbu2uwye 49 18 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 19 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 20 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 49 22 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 49 23 this this DT work_3hmjyh2idvdjhhu4yylbu2uwye 49 24 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 25 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 26 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 49 27 even even RB work_3hmjyh2idvdjhhu4yylbu2uwye 49 28 exceed exceed VB work_3hmjyh2idvdjhhu4yylbu2uwye 49 29 2 2 CD work_3hmjyh2idvdjhhu4yylbu2uwye 49 30 % % NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 31 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 32 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 49 33 highest high JJS work_3hmjyh2idvdjhhu4yylbu2uwye 49 34 100 100 CD work_3hmjyh2idvdjhhu4yylbu2uwye 49 35 times time NNS work_3hmjyh2idvdjhhu4yylbu2uwye 49 36 larger large JJR work_3hmjyh2idvdjhhu4yylbu2uwye 49 37 than than IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 38 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 49 39 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 49 40 LHC lhc NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 41 fixed fix VBN work_3hmjyh2idvdjhhu4yylbu2uwye 49 42 target target NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 43 scenario scenario NN work_3hmjyh2idvdjhhu4yylbu2uwye 49 44 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 50 1 With with IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 50 3 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 50 4 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 5 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 6 fraction fraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 7 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 8 0.6 0.6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 50 9 % % NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 10 which which WDT work_3hmjyh2idvdjhhu4yylbu2uwye 50 11 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 50 12 similar similar JJ work_3hmjyh2idvdjhhu4yylbu2uwye 50 13 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 14 pp pp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 50 15 collisions collision NNS work_3hmjyh2idvdjhhu4yylbu2uwye 50 16 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 17 w w NNP work_3hmjyh2idvdjhhu4yylbu2uwye 50 18 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 50 19 s=14 s=14 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 50 20 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 50 21 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 50 22 more more JJR work_3hmjyh2idvdjhhu4yylbu2uwye 50 23 than than IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 24 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 50 25 factor factor NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 26 magnitude magnitude NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 27 over over IN work_3hmjyh2idvdjhhu4yylbu2uwye 50 28 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 50 29 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 30 range range NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 31 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 50 32 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 50 33 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 51 1 2b 2b NNP work_3hmjyh2idvdjhhu4yylbu2uwye 51 2 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 51 3 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 51 4 reaching reach VBG work_3hmjyh2idvdjhhu4yylbu2uwye 51 5 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 51 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 51 7 highest high JJS work_3hmjyh2idvdjhhu4yylbu2uwye 51 8 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 51 9 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 51 10 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 51 11 bins bin NNS work_3hmjyh2idvdjhhu4yylbu2uwye 51 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 51 13 log§. log§. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 52 1 On on IN work_3hmjyh2idvdjhhu4yylbu2uwye 52 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 52 3 contrary contrary NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 4 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 52 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 52 6 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 7 cross cross JJ work_3hmjyh2idvdjhhu4yylbu2uwye 52 8 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 9 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 10 increases increase NNS work_3hmjyh2idvdjhhu4yylbu2uwye 52 11 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 52 12 two two CD work_3hmjyh2idvdjhhu4yylbu2uwye 52 13 orders order NNS work_3hmjyh2idvdjhhu4yylbu2uwye 52 14 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 52 15 having have VBG work_3hmjyh2idvdjhhu4yylbu2uwye 52 16 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 52 17 mind mind NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 18 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 52 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 52 20 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 52 21 cross cross JJ work_3hmjyh2idvdjhhu4yylbu2uwye 52 22 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 23 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 24 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 52 25 constant constant JJ work_3hmjyh2idvdjhhu4yylbu2uwye 52 26 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 52 27 ~1.5 ~1.5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 52 28 mb mb NN work_3hmjyh2idvdjhhu4yylbu2uwye 52 29 ! ! . work_3hmjyh2idvdjhhu4yylbu2uwye 53 1 decade decade NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 2 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 53 3 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 53 4 equal equal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 53 5 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 53 6 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 7 M m NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 8 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 53 9 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 53 10 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 11 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 12 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 53 13 this this DT work_3hmjyh2idvdjhhu4yylbu2uwye 53 14 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 15 bin bin NNP work_3hmjyh2idvdjhhu4yylbu2uwye 53 16 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 53 17 plotted plot VBN work_3hmjyh2idvdjhhu4yylbu2uwye 53 18 versus versus IN work_3hmjyh2idvdjhhu4yylbu2uwye 53 19 logl logl NN work_3hmjyh2idvdjhhu4yylbu2uwye 53 20 ; ; : work_3hmjyh2idvdjhhu4yylbu2uwye 53 21 ln ln NNP work_3hmjyh2idvdjhhu4yylbu2uwye 53 22 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 53 23 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 54 1 2a 2a CD work_3hmjyh2idvdjhhu4yylbu2uwye 54 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 54 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 54 4 differential differential NN work_3hmjyh2idvdjhhu4yylbu2uwye 54 5 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 54 6 - - NNS work_3hmjyh2idvdjhhu4yylbu2uwye 54 7 sections section NNS work_3hmjyh2idvdjhhu4yylbu2uwye 54 8 do do VBP work_3hmjyh2idvdjhhu4yylbu2uwye 54 9 / / NFP work_3hmjyh2idvdjhhu4yylbu2uwye 54 10 dM dM . work_3hmjyh2idvdjhhu4yylbu2uwye 54 11 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 54 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 54 13 inclusive inclusive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 54 14 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 54 15 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 54 16 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 54 17 3 3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 54 18 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 55 1 Diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 55 2 Heavy Heavy NNP work_3hmjyh2idvdjhhu4yylbu2uwye 55 3 Flavour Flavour NNP work_3hmjyh2idvdjhhu4yylbu2uwye 55 4 Cross Cross NNP work_3hmjyh2idvdjhhu4yylbu2uwye 55 5 - - NNS work_3hmjyh2idvdjhhu4yylbu2uwye 55 6 sections section NNS work_3hmjyh2idvdjhhu4yylbu2uwye 55 7 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 8 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 55 9 gluons)zfm gluons)zfm NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 10 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 55 11 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 12 z z NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 13 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 14 = = NFP work_3hmjyh2idvdjhhu4yylbu2uwye 55 15 6(1 6(1 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 55 16 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 55 17 z)5 z)5 NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 18 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 19 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 55 20 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 21 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 22 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 55 23 gluons)zfg,,(z gluons)zfg,,(z NNPS work_3hmjyh2idvdjhhu4yylbu2uwye 55 24 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 25 = = NFP work_3hmjyh2idvdjhhu4yylbu2uwye 55 26 6z(1 6z(1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 55 27 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 55 28 z z LS work_3hmjyh2idvdjhhu4yylbu2uwye 55 29 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 30 Schlein Schlein NNP work_3hmjyh2idvdjhhu4yylbu2uwye 55 31 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 32 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 55 33 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 55 34 was be VBD work_3hmjyh2idvdjhhu4yylbu2uwye 55 35 used use VBN work_3hmjyh2idvdjhhu4yylbu2uwye 55 36 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 55 37 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 55 38 calculations calculation NNS work_3hmjyh2idvdjhhu4yylbu2uwye 55 39 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 55 40 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 55 41 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 55 42 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 43 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 44 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 55 45 comparison comparison NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 46 : : : work_3hmjyh2idvdjhhu4yylbu2uwye 55 47 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 55 48 still still RB work_3hmjyh2idvdjhhu4yylbu2uwye 55 49 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 55 50 open open JJ work_3hmjyh2idvdjhhu4yylbu2uwye 55 51 question question NN work_3hmjyh2idvdjhhu4yylbu2uwye 55 52 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 56 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 2 ' ' `` work_3hmjyh2idvdjhhu4yylbu2uwye 56 3 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 56 4 ‘ ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 56 5 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 56 6 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 56 7 advocated advocate VBN work_3hmjyh2idvdjhhu4yylbu2uwye 56 8 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 9 Ingelman Ingelman NNP work_3hmjyh2idvdjhhu4yylbu2uwye 56 10 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 56 11 We -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 56 12 assume assume VBP work_3hmjyh2idvdjhhu4yylbu2uwye 56 13 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 15 dominant dominant JJ work_3hmjyh2idvdjhhu4yylbu2uwye 56 16 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 56 17 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 19 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 56 20 consists consist VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 56 21 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 22 gluons gluon NNS work_3hmjyh2idvdjhhu4yylbu2uwye 56 23 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 56 24 although although IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 25 this this DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 26 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 56 27 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 56 28 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 56 29 Output Output NNP work_3hmjyh2idvdjhhu4yylbu2uwye 56 30 over over IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 31 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 32 probably probably RB work_3hmjyh2idvdjhhu4yylbu2uwye 56 33 much much RB work_3hmjyh2idvdjhhu4yylbu2uwye 56 34 reduced reduce VBN work_3hmjyh2idvdjhhu4yylbu2uwye 56 35 background background NN work_3hmjyh2idvdjhhu4yylbu2uwye 56 36 from from IN work_3hmjyh2idvdjhhu4yylbu2uwye 56 37 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 56 38 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 56 39 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 56 40 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 57 1 energy energy NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 2 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 57 3 about about RB work_3hmjyh2idvdjhhu4yylbu2uwye 57 4 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 57 5 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 57 6 thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 57 7 providing provide VBG work_3hmjyh2idvdjhhu4yylbu2uwye 57 8 very very RB work_3hmjyh2idvdjhhu4yylbu2uwye 57 9 high high JJ work_3hmjyh2idvdjhhu4yylbu2uwye 57 10 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 11 gluon·gluon gluon·gluon . work_3hmjyh2idvdjhhu4yylbu2uwye 57 12 interactions interaction NNS work_3hmjyh2idvdjhhu4yylbu2uwye 57 13 pp pp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 57 14 collider collider NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 15 could could MD work_3hmjyh2idvdjhhu4yylbu2uwye 57 16 thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 57 17 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 57 18 transformed transform VBN work_3hmjyh2idvdjhhu4yylbu2uwye 57 19 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 57 20 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 57 21 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 57 22 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 57 23 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 57 24 collider collider NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 25 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 57 26 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 57 27 sub sub NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 28 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 57 29 Roman roman JJ work_3hmjyh2idvdjhhu4yylbu2uwye 57 30 pot pot NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 31 spectrometers spectrometer NNS work_3hmjyh2idvdjhhu4yylbu2uwye 57 32 double double JJ work_3hmjyh2idvdjhhu4yylbu2uwye 57 33 pomeron pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 57 34 exchange exchange NN work_3hmjyh2idvdjhhu4yylbu2uwye 57 35 reactions reaction NNS work_3hmjyh2idvdjhhu4yylbu2uwye 57 36 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 57 37 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 57 38 studied study VBN work_3hmjyh2idvdjhhu4yylbu2uwye 57 39 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 58 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 58 2 perform perform NN work_3hmjyh2idvdjhhu4yylbu2uwye 58 3 detailed detailed JJ work_3hmjyh2idvdjhhu4yylbu2uwye 58 4 studies study NNS work_3hmjyh2idvdjhhu4yylbu2uwye 58 5 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 58 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 58 7 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 58 8 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 58 9 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 59 1 By by IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 2 equipping equip VBG work_3hmjyh2idvdjhhu4yylbu2uwye 59 3 both both DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 4 forward forward RB work_3hmjyh2idvdjhhu4yylbu2uwye 59 5 arms arm NNS work_3hmjyh2idvdjhhu4yylbu2uwye 59 6 study study VBP work_3hmjyh2idvdjhhu4yylbu2uwye 59 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 8 nature nature NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 9 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 10 diffraction diffraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 11 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 59 12 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 59 13 if if IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 15 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 59 16 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 59 17 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 59 18 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 19 quasireal quasireal NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 20 particle particle NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 21 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 59 22 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 23 In in IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 24 any any DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 25 case case NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 26 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 59 27 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 28 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 29 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 30 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 59 31 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 59 32 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 59 33 serve serve VB work_3hmjyh2idvdjhhu4yylbu2uwye 59 34 as as IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 35 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 59 36 ideal ideal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 59 37 tool tool NN work_3hmjyh2idvdjhhu4yylbu2uwye 59 38 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 59 39 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 59 40 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 60 1 further further RB work_3hmjyh2idvdjhhu4yylbu2uwye 60 2 studied study VBD work_3hmjyh2idvdjhhu4yylbu2uwye 60 3 whether whether IN work_3hmjyh2idvdjhhu4yylbu2uwye 60 4 such such PDT work_3hmjyh2idvdjhhu4yylbu2uwye 60 5 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 60 6 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 60 7 sample sample NN work_3hmjyh2idvdjhhu4yylbu2uwye 60 8 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 60 9 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 60 10 cleaner clean JJR work_3hmjyh2idvdjhhu4yylbu2uwye 60 11 compared compare VBN work_3hmjyh2idvdjhhu4yylbu2uwye 60 12 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 60 13 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 60 14 acceptance acceptance NN work_3hmjyh2idvdjhhu4yylbu2uwye 60 15 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 60 16 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 60 17 forward forward NN work_3hmjyh2idvdjhhu4yylbu2uwye 60 18 spectrometer spectrometer NN work_3hmjyh2idvdjhhu4yylbu2uwye 60 19 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 60 20 like like IN work_3hmjyh2idvdjhhu4yylbu2uwye 60 21 e.g. e.g. RB work_3hmjyh2idvdjhhu4yylbu2uwye 61 1 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 61 2 COBEX COBEX NNP work_3hmjyh2idvdjhhu4yylbu2uwye 61 3 spectrometer spectrometer NN work_3hmjyh2idvdjhhu4yylbu2uwye 61 4 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 62 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 62 2 has have VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 62 3 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 62 4 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 62 5 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 62 6 already already RB work_3hmjyh2idvdjhhu4yylbu2uwye 62 7 on on IN work_3hmjyh2idvdjhhu4yylbu2uwye 62 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 62 9 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 62 10 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 62 11 level level NN work_3hmjyh2idvdjhhu4yylbu2uwye 62 12 trigger trigger NN work_3hmjyh2idvdjhhu4yylbu2uwye 62 13 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 62 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 62 15 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 62 16 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 62 17 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 62 18 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 62 19 boosted boost VBN work_3hmjyh2idvdjhhu4yylbu2uwye 62 20 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 62 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 62 22 pot pot NN work_3hmjyh2idvdjhhu4yylbu2uwye 62 23 spectrometers spectrometer NNS work_3hmjyh2idvdjhhu4yylbu2uwye 62 24 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 63 1 By by IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 2 choosing choose VBG work_3hmjyh2idvdjhhu4yylbu2uwye 63 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 4 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 63 5 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 6 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 7 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 63 8 hence hence RB work_3hmjyh2idvdjhhu4yylbu2uwye 63 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 63 11 loss loss NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 14 protons proton NNS work_3hmjyh2idvdjhhu4yylbu2uwye 63 15 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 63 16 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 63 17 measured measure VBN work_3hmjyh2idvdjhhu4yylbu2uwye 63 18 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 20 range range NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 21 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 22 10‘to 10‘to NNP work_3hmjyh2idvdjhhu4yylbu2uwye 63 23 10with 10with CD work_3hmjyh2idvdjhhu4yylbu2uwye 63 24 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 25 help help NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 26 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 27 Roman3 Roman3 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 63 28 ` ` '' work_3hmjyh2idvdjhhu4yylbu2uwye 63 29 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 63 30 signal signal NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 31 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 63 32 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 33 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 63 34 background background NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 35 ratio ratio NN work_3hmjyh2idvdjhhu4yylbu2uwye 63 36 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 63 37 more more RBR work_3hmjyh2idvdjhhu4yylbu2uwye 63 38 favourable favourable JJ work_3hmjyh2idvdjhhu4yylbu2uwye 63 39 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 63 40 these these DT work_3hmjyh2idvdjhhu4yylbu2uwye 63 41 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 63 42 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 64 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 64 2 relative relative JJ work_3hmjyh2idvdjhhu4yylbu2uwye 64 3 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 64 4 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 64 5 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 64 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 64 7 case case NN work_3hmjyh2idvdjhhu4yylbu2uwye 64 8 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 64 9 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 64 10 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 64 11 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 64 12 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 64 13 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 64 14 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 64 15 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 64 16 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 64 17 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 64 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 64 19 kinematics kinematics NNPS work_3hmjyh2idvdjhhu4yylbu2uwye 64 20 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 64 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 64 22 lower low JJR work_3hmjyh2idvdjhhu4yylbu2uwye 64 23 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 65 1 It -PRON- PRP work_3hmjyh2idvdjhhu4yylbu2uwye 65 2 may may MD work_3hmjyh2idvdjhhu4yylbu2uwye 65 3 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 65 4 that that DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 65 6 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 7 most most JJS work_3hmjyh2idvdjhhu4yylbu2uwye 65 8 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 10 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 65 11 going go VBG work_3hmjyh2idvdjhhu4yylbu2uwye 65 12 opposite opposite RB work_3hmjyh2idvdjhhu4yylbu2uwye 65 13 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 15 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 16 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 65 17 collisions collision NNS work_3hmjyh2idvdjhhu4yylbu2uwye 65 18 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 19 * * NFP work_3hmjyh2idvdjhhu4yylbu2uwye 65 20 } } -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 65 21 s=14 s=14 IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 22 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 65 23 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 65 24 despite despite IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 25 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 26 fact fact NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 27 that that IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 28 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 29 sub sub NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 30 energy energy NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 31 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 32 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 33 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 65 34 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 65 35 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 65 36 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 37 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 38 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 39 high high JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 40 mass mass JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 41 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 42 events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 65 43 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 65 44 as as RB work_3hmjyh2idvdjhhu4yylbu2uwye 65 45 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 46 as as IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 47 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 65 48 normal normal JJ work_3hmjyh2idvdjhhu4yylbu2uwye 65 49 pp pp NN work_3hmjyh2idvdjhhu4yylbu2uwye 65 50 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 65 51 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 66 1 Summary Summary NNP work_3hmjyh2idvdjhhu4yylbu2uwye 66 2 TeV. TeV. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 67 1 8 8 CD work_3hmjyh2idvdjhhu4yylbu2uwye 67 2 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 67 3 three three CD work_3hmjyh2idvdjhhu4yylbu2uwye 67 4 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 67 5 bins bin NNS work_3hmjyh2idvdjhhu4yylbu2uwye 67 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 68 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 68 2 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 68 3 momenta momenta NNP work_3hmjyh2idvdjhhu4yylbu2uwye 68 4 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 68 5 lowest low JJS work_3hmjyh2idvdjhhu4yylbu2uwye 68 6 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 68 7 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 68 8 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 68 9 around around IN work_3hmjyh2idvdjhhu4yylbu2uwye 68 10 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 68 11 distributions distribution NNS work_3hmjyh2idvdjhhu4yylbu2uwye 68 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 68 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 68 14 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 68 15 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 68 16 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 68 17 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 68 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 68 19 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 68 20 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 68 21 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 68 22 shown show VBN work_3hmjyh2idvdjhhu4yylbu2uwye 68 23 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 68 24 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 68 25 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 69 1 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 69 2 M M NNP work_3hmjyh2idvdjhhu4yylbu2uwye 69 3 > > NNP work_3hmjyh2idvdjhhu4yylbu2uwye 69 4 3 3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 69 5 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 69 6 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 69 7 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 69 8 increases increase NNS work_3hmjyh2idvdjhhu4yylbu2uwye 69 9 above above IN work_3hmjyh2idvdjhhu4yylbu2uwye 69 10 100 100 CD work_3hmjyh2idvdjhhu4yylbu2uwye 69 11 GeV GeV NNS work_3hmjyh2idvdjhhu4yylbu2uwye 69 12 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 69 13 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 69 14 below below IN work_3hmjyh2idvdjhhu4yylbu2uwye 69 15 0.1 0.1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 69 16 TeV. TeV. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 70 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 70 2 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 70 3 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 70 4 average average JJ work_3hmjyh2idvdjhhu4yylbu2uwye 70 5 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 70 6 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 70 7 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 70 8 shown show VBN work_3hmjyh2idvdjhhu4yylbu2uwye 70 9 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 70 10 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 70 11 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 71 1 7 7 LS work_3hmjyh2idvdjhhu4yylbu2uwye 71 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 71 3 is be VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 71 4 around around RB work_3hmjyh2idvdjhhu4yylbu2uwye 71 5 50 50 CD work_3hmjyh2idvdjhhu4yylbu2uwye 71 6 GeV GeV NNS work_3hmjyh2idvdjhhu4yylbu2uwye 71 7 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 71 8 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 71 9 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 71 10 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 71 11 production production NN work_3hmjyh2idvdjhhu4yylbu2uwye 71 12 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 71 13 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 71 14 below below IN work_3hmjyh2idvdjhhu4yylbu2uwye 71 15 0.3 0.3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 71 16 TeV. TeV. NNS work_3hmjyh2idvdjhhu4yylbu2uwye 72 1 mrad mrad NNP work_3hmjyh2idvdjhhu4yylbu2uwye 72 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 73 1 In in IN work_3hmjyh2idvdjhhu4yylbu2uwye 73 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 73 3 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 73 4 hemisphere hemisphere NN work_3hmjyh2idvdjhhu4yylbu2uwye 73 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 73 6 COBEX COBEX NNP work_3hmjyh2idvdjhhu4yylbu2uwye 73 7 would would MD work_3hmjyh2idvdjhhu4yylbu2uwye 73 8 almost almost RB work_3hmjyh2idvdjhhu4yylbu2uwye 73 9 fully fully RB work_3hmjyh2idvdjhhu4yylbu2uwye 73 10 cover cover VB work_3hmjyh2idvdjhhu4yylbu2uwye 73 11 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 73 12 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 73 13 pairs pair NNS work_3hmjyh2idvdjhhu4yylbu2uwye 73 14 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 73 15 high high JJ work_3hmjyh2idvdjhhu4yylbu2uwye 73 16 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 73 17 diffraction diffraction NN work_3hmjyh2idvdjhhu4yylbu2uwye 73 18 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 73 19 most most JJS work_3hmjyh2idvdjhhu4yylbu2uwye 73 20 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 73 21 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 73 22 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 73 23 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 73 24 being be VBG work_3hmjyh2idvdjhhu4yylbu2uwye 73 25 even even RB work_3hmjyh2idvdjhhu4yylbu2uwye 73 26 within within IN work_3hmjyh2idvdjhhu4yylbu2uwye 73 27 200 200 CD work_3hmjyh2idvdjhhu4yylbu2uwye 73 28 detector detector NN work_3hmjyh2idvdjhhu4yylbu2uwye 73 29 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 73 30 Ref Ref NNP work_3hmjyh2idvdjhhu4yylbu2uwye 73 31 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 74 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 74 2 8 8 CD work_3hmjyh2idvdjhhu4yylbu2uwye 74 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 74 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 74 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 74 6 placed place VBN work_3hmjyh2idvdjhhu4yylbu2uwye 74 7 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 74 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 74 9 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 74 10 hemisphere hemisphere VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 74 11 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 74 12 accepts accept VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 74 13 more more JJR work_3hmjyh2idvdjhhu4yylbu2uwye 74 14 than than IN work_3hmjyh2idvdjhhu4yylbu2uwye 74 15 60 60 CD work_3hmjyh2idvdjhhu4yylbu2uwye 74 16 % % NN work_3hmjyh2idvdjhhu4yylbu2uwye 74 17 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 74 18 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 74 19 bB bB NNP work_3hmjyh2idvdjhhu4yylbu2uwye 74 20 assumed assume VBD work_3hmjyh2idvdjhhu4yylbu2uwye 74 21 spectrometer spectrometer NNP work_3hmjyh2idvdjhhu4yylbu2uwye 74 22 apertures aperture NNS work_3hmjyh2idvdjhhu4yylbu2uwye 74 23 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 75 1 As as IN work_3hmjyh2idvdjhhu4yylbu2uwye 75 2 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 75 3 example example NN work_3hmjyh2idvdjhhu4yylbu2uwye 75 4 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 75 5 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 75 6 forward forward NN work_3hmjyh2idvdjhhu4yylbu2uwye 75 7 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 75 8 600 600 CD work_3hmjyh2idvdjhhu4yylbu2uwye 75 9 mrad mrad NN work_3hmjyh2idvdjhhu4yylbu2uwye 75 10 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 75 11 COBEX COBEX NNP work_3hmjyh2idvdjhhu4yylbu2uwye 75 12 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 75 13 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 76 1 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 76 2 shows show VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 76 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 76 4 acceptance acceptance NN work_3hmjyh2idvdjhhu4yylbu2uwye 76 5 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 76 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 76 7 bB bB NNP work_3hmjyh2idvdjhhu4yylbu2uwye 76 8 pairs pair NNS work_3hmjyh2idvdjhhu4yylbu2uwye 76 9 as as IN work_3hmjyh2idvdjhhu4yylbu2uwye 76 10 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 76 11 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 76 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 76 13 log§ log§ NNP work_3hmjyh2idvdjhhu4yylbu2uwye 76 14 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 76 15 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 76 16 combinatorial combinatorial JJ work_3hmjyh2idvdjhhu4yylbu2uwye 76 17 background background NN work_3hmjyh2idvdjhhu4yylbu2uwye 76 18 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 76 19 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 76 20 reconstruction reconstruction NN work_3hmjyh2idvdjhhu4yylbu2uwye 76 21 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 77 1 most most JJS work_3hmjyh2idvdjhhu4yylbu2uwye 77 2 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 77 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 4 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 77 5 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 77 6 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 77 7 are be VBP work_3hmjyh2idvdjhhu4yylbu2uwye 77 8 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 77 9 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 10 proton proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 77 11 hemisphere hemisphere VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 77 12 thus thus RB work_3hmjyh2idvdjhhu4yylbu2uwye 77 13 reducing reduce VBG work_3hmjyh2idvdjhhu4yylbu2uwye 77 14 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 15 over over RP work_3hmjyh2idvdjhhu4yylbu2uwye 77 16 only only RB work_3hmjyh2idvdjhhu4yylbu2uwye 77 17 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 18 few few JJ work_3hmjyh2idvdjhhu4yylbu2uwye 77 19 units unit NNS work_3hmjyh2idvdjhhu4yylbu2uwye 77 20 can can MD work_3hmjyh2idvdjhhu4yylbu2uwye 77 21 be be VB work_3hmjyh2idvdjhhu4yylbu2uwye 77 22 boosted boost VBN work_3hmjyh2idvdjhhu4yylbu2uwye 77 23 into into IN work_3hmjyh2idvdjhhu4yylbu2uwye 77 24 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 25 acceptance acceptance NN work_3hmjyh2idvdjhhu4yylbu2uwye 77 26 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 77 27 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 77 28 apparatus apparatus NN work_3hmjyh2idvdjhhu4yylbu2uwye 77 29 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 78 1 Secondly secondly RB work_3hmjyh2idvdjhhu4yylbu2uwye 78 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 78 3 large large JJ work_3hmjyh2idvdjhhu4yylbu2uwye 78 4 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 78 5 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 78 6 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 78 7 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 78 8 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 78 9 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 78 10 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 78 11 pseudorapidity pseudorapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 78 12 distribution distribution NN work_3hmjyh2idvdjhhu4yylbu2uwye 78 13 extending extend VBG work_3hmjyh2idvdjhhu4yylbu2uwye 78 14 direction direction NN work_3hmjyh2idvdjhhu4yylbu2uwye 78 15 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 79 1 From from IN work_3hmjyh2idvdjhhu4yylbu2uwye 79 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 79 3 experimental experimental JJ work_3hmjyh2idvdjhhu4yylbu2uwye 79 4 point point NN work_3hmjyh2idvdjhhu4yylbu2uwye 79 5 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 79 6 view view NN work_3hmjyh2idvdjhhu4yylbu2uwye 79 7 this this DT work_3hmjyh2idvdjhhu4yylbu2uwye 79 8 has have VBZ work_3hmjyh2idvdjhhu4yylbu2uwye 79 9 two two CD work_3hmjyh2idvdjhhu4yylbu2uwye 79 10 advantages advantage NNS work_3hmjyh2idvdjhhu4yylbu2uwye 79 11 : : : work_3hmjyh2idvdjhhu4yylbu2uwye 79 12 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 79 13 choosing choose VBG work_3hmjyh2idvdjhhu4yylbu2uwye 79 14 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 79 15 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 79 16 8 8 CD work_3hmjyh2idvdjhhu4yylbu2uwye 79 17 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 79 18 COBEX COBEX NNP work_3hmjyh2idvdjhhu4yylbu2uwye 79 19 Letter Letter NNP work_3hmjyh2idvdjhhu4yylbu2uwye 79 20 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 79 21 Intent Intent NNP work_3hmjyh2idvdjhhu4yylbu2uwye 79 22 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 79 23 CERN CERN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 79 24 / / SYM work_3hmjyh2idvdjhhu4yylbu2uwye 79 25 LHCC/ lhcc/ CD work_3hmjyh2idvdjhhu4yylbu2uwye 79 26 93 93 CD work_3hmjyh2idvdjhhu4yylbu2uwye 79 27 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 79 28 50 50 CD work_3hmjyh2idvdjhhu4yylbu2uwye 79 29 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 80 1 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 80 2 Output Output NNP work_3hmjyh2idvdjhhu4yylbu2uwye 80 3 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 80 4 7 7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 80 5 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 80 6 A. a. NN work_3hmjyh2idvdjhhu4yylbu2uwye 80 7 Donnachie Donnachie NNP work_3hmjyh2idvdjhhu4yylbu2uwye 80 8 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 80 9 P.V. P.V. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 81 1 Landshoff Landshoff NNP work_3hmjyh2idvdjhhu4yylbu2uwye 81 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 81 3 Nucl Nucl NNP work_3hmjyh2idvdjhhu4yylbu2uwye 81 4 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 82 1 Phys phys NN work_3hmjyh2idvdjhhu4yylbu2uwye 82 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 83 1 B303 B303 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 83 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 83 3 1988 1988 CD work_3hmjyh2idvdjhhu4yylbu2uwye 83 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 83 5 634 634 CD work_3hmjyh2idvdjhhu4yylbu2uwye 83 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 84 1 Diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 84 2 Hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 84 3 Scattering Scattering NNP work_3hmjyh2idvdjhhu4yylbu2uwye 84 4 Processes Processes NNPS work_3hmjyh2idvdjhhu4yylbu2uwye 84 5 ' ' POS work_3hmjyh2idvdjhhu4yylbu2uwye 84 6 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 84 7 DESY DESY NNP work_3hmjyh2idvdjhhu4yylbu2uwye 84 8 93 93 CD work_3hmjyh2idvdjhhu4yylbu2uwye 84 9 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 85 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 85 2 61 61 CD work_3hmjyh2idvdjhhu4yylbu2uwye 85 3 P. P. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 4 Bruni Bruni NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 5 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 85 6 G. G. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 7 Ingelman Ingelman NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 8 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 85 9 ' ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 85 10 POMPYT POMPYT NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 11 version version NN work_3hmjyh2idvdjhhu4yylbu2uwye 85 12 1.0- 1.0- CD work_3hmjyh2idvdjhhu4yylbu2uwye 85 13 A a DT work_3hmjyh2idvdjhhu4yylbu2uwye 85 14 Monte Monte NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 15 Carlo Carlo NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 16 to to TO work_3hmjyh2idvdjhhu4yylbu2uwye 85 17 simulate simulate VB work_3hmjyh2idvdjhhu4yylbu2uwye 85 18 T. T. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 19 Sjostrand Sjostrand NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 20 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 85 21 Comp Comp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 85 22 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 86 1 Phys phys NN work_3hmjyh2idvdjhhu4yylbu2uwye 86 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 87 1 Comm Comm NNP work_3hmjyh2idvdjhhu4yylbu2uwye 87 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 88 1 39 39 CD work_3hmjyh2idvdjhhu4yylbu2uwye 88 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 88 3 1986 1986 CD work_3hmjyh2idvdjhhu4yylbu2uwye 88 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 88 5 347 347 CD work_3hmjyh2idvdjhhu4yylbu2uwye 88 6 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 88 7 ibid ibid RB work_3hmjyh2idvdjhhu4yylbu2uwye 88 8 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 89 1 43 43 CD work_3hmjyh2idvdjhhu4yylbu2uwye 89 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 89 3 1987 1987 CD work_3hmjyh2idvdjhhu4yylbu2uwye 89 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 89 5 367 367 CD work_3hmjyh2idvdjhhu4yylbu2uwye 89 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 90 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 90 2 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 90 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 90 4 H.-U. h.-u. CD work_3hmjyh2idvdjhhu4yylbu2uwye 91 1 Bengtsson Bengtsson NNP work_3hmjyh2idvdjhhu4yylbu2uwye 91 2 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 91 3 T. T. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 91 4 Sjostrand Sjostrand NNP work_3hmjyh2idvdjhhu4yylbu2uwye 91 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 91 6 Comp Comp NNP work_3hmjyh2idvdjhhu4yylbu2uwye 91 7 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 92 1 Phys phys NN work_3hmjyh2idvdjhhu4yylbu2uwye 92 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 93 1 Comm Comm NNP work_3hmjyh2idvdjhhu4yylbu2uwye 93 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 94 1 46 46 CD work_3hmjyh2idvdjhhu4yylbu2uwye 94 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 94 3 1987 1987 CD work_3hmjyh2idvdjhhu4yylbu2uwye 94 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 94 5 43 43 CD work_3hmjyh2idvdjhhu4yylbu2uwye 94 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 95 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 95 2 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 95 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 95 4 G. G. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 95 5 Ingelman Ingelman NNP work_3hmjyh2idvdjhhu4yylbu2uwye 95 6 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 95 7 P. P. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 95 8 Schlein Schlein NNP work_3hmjyh2idvdjhhu4yylbu2uwye 95 9 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 95 10 Phys Phys NNP work_3hmjyh2idvdjhhu4yylbu2uwye 95 11 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 96 1 Lett Lett NNP work_3hmjyh2idvdjhhu4yylbu2uwye 96 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 97 1 152B 152b CD work_3hmjyh2idvdjhhu4yylbu2uwye 97 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 97 3 1985 1985 CD work_3hmjyh2idvdjhhu4yylbu2uwye 97 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 97 5 256 256 CD work_3hmjyh2idvdjhhu4yylbu2uwye 97 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 98 1 LHC LHC NNP work_3hmjyh2idvdjhhu4yylbu2uwye 98 2 Low-/3 Low-/3 NNS work_3hmjyh2idvdjhhu4yylbu2uwye 98 3 Insertion Insertion NNP work_3hmjyh2idvdjhhu4yylbu2uwye 98 4 ' ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 98 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 98 6 CERN CERN NNP work_3hmjyh2idvdjhhu4yylbu2uwye 98 7 AT/ at/ CD work_3hmjyh2idvdjhhu4yylbu2uwye 98 8 94 94 CD work_3hmjyh2idvdjhhu4yylbu2uwye 98 9 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 98 10 09 09 CD work_3hmjyh2idvdjhhu4yylbu2uwye 98 11 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 98 12 DI DI NNP work_3hmjyh2idvdjhhu4yylbu2uwye 98 13 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 98 14 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 99 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 99 2 3 3 LS work_3hmjyh2idvdjhhu4yylbu2uwye 99 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 99 4 K. K. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 5 Eggert Eggert NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 6 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 99 7 A. A. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 8 Morsch Morsch NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 9 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 99 10 ' ' '' work_3hmjyh2idvdjhhu4yylbu2uwye 99 11 Leading lead VBG work_3hmjyh2idvdjhhu4yylbu2uwye 99 12 Proton Proton NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 13 Detection detection NN work_3hmjyh2idvdjhhu4yylbu2uwye 99 14 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 99 15 Difractive difractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 99 16 Events event NNS work_3hmjyh2idvdjhhu4yylbu2uwye 99 17 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 99 18 an an DT work_3hmjyh2idvdjhhu4yylbu2uwye 99 19 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 99 20 2 2 CD work_3hmjyh2idvdjhhu4yylbu2uwye 99 21 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 99 22 M. M. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 23 Bozzo Bozzo NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 24 et et NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 25 al al NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 26 . . NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 27 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 99 28 Phys Phys NNP work_3hmjyh2idvdjhhu4yylbu2uwye 99 29 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 100 1 Lett Lett NNP work_3hmjyh2idvdjhhu4yylbu2uwye 100 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 101 1 B136 B136 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 101 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 101 3 1984 1984 CD work_3hmjyh2idvdjhhu4yylbu2uwye 101 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 101 5 217 217 CD work_3hmjyh2idvdjhhu4yylbu2uwye 101 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 102 1 [ [ -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 102 2 1 1 LS work_3hmjyh2idvdjhhu4yylbu2uwye 102 3 ] ] -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 102 4 M.G. M.G. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 103 1 Albrow albrow VB work_3hmjyh2idvdjhhu4yylbu2uwye 103 2 et et NN work_3hmjyh2idvdjhhu4yylbu2uwye 103 3 ul ul JJ work_3hmjyh2idvdjhhu4yylbu2uwye 103 4 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 103 5 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 103 6 Nucl Nucl NNP work_3hmjyh2idvdjhhu4yylbu2uwye 103 7 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 104 1 Phys phys NN work_3hmjyh2idvdjhhu4yylbu2uwye 104 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 105 1 B108 B108 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 105 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 105 3 1976 1976 CD work_3hmjyh2idvdjhhu4yylbu2uwye 105 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 105 5 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 105 6 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 106 1 References reference NNS work_3hmjyh2idvdjhhu4yylbu2uwye 106 2 - - SYM work_3hmjyh2idvdjhhu4yylbu2uwye 106 3 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 106 4 OCR OCR NNP work_3hmjyh2idvdjhhu4yylbu2uwye 106 5 Output output NN work_3hmjyh2idvdjhhu4yylbu2uwye 106 6 TeV tev NN work_3hmjyh2idvdjhhu4yylbu2uwye 106 7 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 106 8 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 106 9 c c NN work_3hmjyh2idvdjhhu4yylbu2uwye 106 10 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 106 11 M m NN work_3hmjyh2idvdjhhu4yylbu2uwye 106 12 = = SYM work_3hmjyh2idvdjhhu4yylbu2uwye 106 13 3.6 3.6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 106 14 TeV. tev. NN work_3hmjyh2idvdjhhu4yylbu2uwye 107 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 107 2 recoil recoil NN work_3hmjyh2idvdjhhu4yylbu2uwye 107 3 protons proton NNS work_3hmjyh2idvdjhhu4yylbu2uwye 107 4 show show VBP work_3hmjyh2idvdjhhu4yylbu2uwye 107 5 up up RP work_3hmjyh2idvdjhhu4yylbu2uwye 107 6 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 107 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 107 8 right right JJ work_3hmjyh2idvdjhhu4yylbu2uwye 107 9 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 107 10 hand hand NN work_3hmjyh2idvdjhhu4yylbu2uwye 107 11 side side NN work_3hmjyh2idvdjhhu4yylbu2uwye 107 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 107 13 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 107 14 plots plot NNS work_3hmjyh2idvdjhhu4yylbu2uwye 107 15 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 108 1 assuming assume VBG work_3hmjyh2idvdjhhu4yylbu2uwye 108 2 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 108 3 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 108 4 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 5 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 6 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 7 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 108 8 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 108 9 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 108 10 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 108 11 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 108 12 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 13 M=0.2 M=0.2 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 108 14 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 108 15 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 108 16 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 108 17 b b NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 18 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 108 19 M=1.4 m=1.4 NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 20 Particle particle NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 21 rate rate NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 22 per per IN work_3hmjyh2idvdjhhu4yylbu2uwye 108 23 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 24 vs. vs. IN work_3hmjyh2idvdjhhu4yylbu2uwye 108 25 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 26 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 108 27 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 108 28 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 29 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 108 30 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 108 31 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 108 32 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 108 33 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 109 1 8 8 CD work_3hmjyh2idvdjhhu4yylbu2uwye 109 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 109 3 b b NN work_3hmjyh2idvdjhhu4yylbu2uwye 109 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 109 5 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 109 6 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 109 7 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 109 8 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 109 9 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 110 1 Average average JJ work_3hmjyh2idvdjhhu4yylbu2uwye 110 2 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 3 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 110 4 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 110 5 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 6 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 110 7 vs. vs. IN work_3hmjyh2idvdjhhu4yylbu2uwye 110 8 l0g(€ l0g(€ NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 9 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 110 10 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 110 11 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 110 12 a a LS work_3hmjyh2idvdjhhu4yylbu2uwye 110 13 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 110 14 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 110 15 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 16 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 17 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 110 18 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 110 19 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 111 1 7 7 CD work_3hmjyh2idvdjhhu4yylbu2uwye 111 2 200 200 CD work_3hmjyh2idvdjhhu4yylbu2uwye 111 3 rnrad rnrad NN work_3hmjyh2idvdjhhu4yylbu2uwye 111 4 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 111 5 dashed dash VBN work_3hmjyh2idvdjhhu4yylbu2uwye 111 6 line line NN work_3hmjyh2idvdjhhu4yylbu2uwye 111 7 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 111 8 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 111 9 100 100 CD work_3hmjyh2idvdjhhu4yylbu2uwye 111 10 mrad mrad NN work_3hmjyh2idvdjhhu4yylbu2uwye 111 11 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 111 12 dotted dotted JJ work_3hmjyh2idvdjhhu4yylbu2uwye 111 13 line line NN work_3hmjyh2idvdjhhu4yylbu2uwye 111 14 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 111 15 aperture aperture NN work_3hmjyh2idvdjhhu4yylbu2uwye 111 16 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 112 1 Beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 2 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 112 3 antibeauty antibeauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 4 pair pair NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 5 acceptance acceptance NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 6 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 112 7 forward forward JJ work_3hmjyh2idvdjhhu4yylbu2uwye 112 8 spectrometers spectrometer NNS work_3hmjyh2idvdjhhu4yylbu2uwye 112 9 with with IN work_3hmjyh2idvdjhhu4yylbu2uwye 112 10 600 600 CD work_3hmjyh2idvdjhhu4yylbu2uwye 112 11 mrad mrad NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 12 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 112 13 solid solid JJ work_3hmjyh2idvdjhhu4yylbu2uwye 112 14 line line NN work_3hmjyh2idvdjhhu4yylbu2uwye 112 15 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 112 16 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 112 17 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 112 18 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 113 1 6 6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 113 2 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 113 3 plots plot NNS work_3hmjyh2idvdjhhu4yylbu2uwye 113 4 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 114 1 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 114 2 b b NNP work_3hmjyh2idvdjhhu4yylbu2uwye 114 3 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 114 4 M=1.4 M=1.4 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 114 5 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 114 6 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 114 7 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 114 8 c c NN work_3hmjyh2idvdjhhu4yylbu2uwye 114 9 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 114 10 M=3.6 m=3.6 CD work_3hmjyh2idvdjhhu4yylbu2uwye 114 11 TeV. TeV. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 115 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 115 2 recoil recoil NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 3 protons proton NNS work_3hmjyh2idvdjhhu4yylbu2uwye 115 4 show show VBP work_3hmjyh2idvdjhhu4yylbu2uwye 115 5 up up RP work_3hmjyh2idvdjhhu4yylbu2uwye 115 6 at at IN work_3hmjyh2idvdjhhu4yylbu2uwye 115 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 115 8 right right JJ work_3hmjyh2idvdjhhu4yylbu2uwye 115 9 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 115 10 hand hand NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 11 side side NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 12 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 115 13 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 115 14 assuming assume VBG work_3hmjyh2idvdjhhu4yylbu2uwye 115 15 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 115 16 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 115 17 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 18 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 19 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 20 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 115 21 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 115 22 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 115 23 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 115 24 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 115 25 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 26 M=0.2 M=0.2 NNP work_3hmjyh2idvdjhhu4yylbu2uwye 115 27 TeV TeV NNP work_3hmjyh2idvdjhhu4yylbu2uwye 115 28 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 115 29 Particle Particle NNP work_3hmjyh2idvdjhhu4yylbu2uwye 115 30 density density NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 31 distribution distribution NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 32 vs. vs. IN work_3hmjyh2idvdjhhu4yylbu2uwye 115 33 pseudo pseudo NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 34 rapidity rapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 35 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 115 36 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 115 37 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 38 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 115 39 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 40 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 115 41 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 116 1 5 5 CD work_3hmjyh2idvdjhhu4yylbu2uwye 116 2 particle particle NN work_3hmjyh2idvdjhhu4yylbu2uwye 116 3 distribution distribution NN work_3hmjyh2idvdjhhu4yylbu2uwye 116 4 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 117 1 lines line NNS work_3hmjyh2idvdjhhu4yylbu2uwye 117 2 show show VBP work_3hmjyh2idvdjhhu4yylbu2uwye 117 3 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 117 4 range range NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 5 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 117 6 coverage coverage NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 7 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 117 8 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 117 9 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 117 10 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 11 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 117 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 117 13 width width NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 14 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 117 15 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 117 16 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 17 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 18 line line NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 19 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 20 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 117 21 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 22 a a LS work_3hmjyh2idvdjhhu4yylbu2uwye 117 23 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 24 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 117 25 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 26 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 27 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 117 28 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 29 b b NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 30 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 117 31 soft soft JJ work_3hmjyh2idvdjhhu4yylbu2uwye 117 32 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 33 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 34 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 117 35 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 118 1 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 118 2 vertical vertical JJ work_3hmjyh2idvdjhhu4yylbu2uwye 118 3 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 118 4 average average JJ work_3hmjyh2idvdjhhu4yylbu2uwye 118 5 pseudo pseudo NN work_3hmjyh2idvdjhhu4yylbu2uwye 118 6 rapidity rapidity NN work_3hmjyh2idvdjhhu4yylbu2uwye 118 7 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 118 8 beauty beauty NN work_3hmjyh2idvdjhhu4yylbu2uwye 118 9 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 118 10 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 118 11 points point NNS work_3hmjyh2idvdjhhu4yylbu2uwye 118 12 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 118 13 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 118 14 underlying underlie VBG work_3hmjyh2idvdjhhu4yylbu2uwye 118 15 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 118 16 particles particle NNS work_3hmjyh2idvdjhhu4yylbu2uwye 118 17 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 118 18 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 119 1 4 4 CD work_3hmjyh2idvdjhhu4yylbu2uwye 119 2 Ratio ratio NN work_3hmjyh2idvdjhhu4yylbu2uwye 119 3 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 119 4 cE cE NNP work_3hmjyh2idvdjhhu4yylbu2uwye 119 5 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 119 6 bB bB NNP work_3hmjyh2idvdjhhu4yylbu2uwye 119 7 cross cross JJ work_3hmjyh2idvdjhhu4yylbu2uwye 119 8 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 119 9 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 119 10 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 120 1 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 120 2 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 121 1 3 3 CD work_3hmjyh2idvdjhhu4yylbu2uwye 121 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 121 3 b b NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 121 5 Ratio ratio NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 6 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 121 7 bil bil NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 8 to to IN work_3hmjyh2idvdjhhu4yylbu2uwye 121 9 total total JJ work_3hmjyh2idvdjhhu4yylbu2uwye 121 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 121 11 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 12 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 13 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 121 14 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 122 1 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 122 2 dotted dotted JJ work_3hmjyh2idvdjhhu4yylbu2uwye 122 3 curve curve NN work_3hmjyh2idvdjhhu4yylbu2uwye 122 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 122 5 assuming assume VBG work_3hmjyh2idvdjhhu4yylbu2uwye 122 6 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 122 7 hard hard JJ work_3hmjyh2idvdjhhu4yylbu2uwye 122 8 gluon gluon NN work_3hmjyh2idvdjhhu4yylbu2uwye 122 9 structure structure NN work_3hmjyh2idvdjhhu4yylbu2uwye 122 10 function function NN work_3hmjyh2idvdjhhu4yylbu2uwye 122 11 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 122 12 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 122 13 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 122 14 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 123 1 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 123 2 a a LS work_3hmjyh2idvdjhhu4yylbu2uwye 123 3 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 123 4 Total total JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 5 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 6 cross cross NN work_3hmjyh2idvdjhhu4yylbu2uwye 123 7 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 123 8 section section NN work_3hmjyh2idvdjhhu4yylbu2uwye 123 9 vs. vs. IN work_3hmjyh2idvdjhhu4yylbu2uwye 123 10 log(§ log(§ NNP work_3hmjyh2idvdjhhu4yylbu2uwye 123 11 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 123 12 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 123 13 solid solid JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 14 curve curve NN work_3hmjyh2idvdjhhu4yylbu2uwye 123 15 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 123 16 and and CC work_3hmjyh2idvdjhhu4yylbu2uwye 123 17 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 18 bB bB NNP work_3hmjyh2idvdjhhu4yylbu2uwye 123 19 cross cross JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 20 - - NN work_3hmjyh2idvdjhhu4yylbu2uwye 123 21 section section JJ work_3hmjyh2idvdjhhu4yylbu2uwye 123 22 Fig fig NN work_3hmjyh2idvdjhhu4yylbu2uwye 123 23 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 124 1 2 2 LS work_3hmjyh2idvdjhhu4yylbu2uwye 124 2 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 124 3 c c NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 4 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 124 5 Sketch Sketch NNP work_3hmjyh2idvdjhhu4yylbu2uwye 124 6 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 124 7 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 124 8 single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 9 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 124 10 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 11 event event NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 12 topology topology NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 13 for for IN work_3hmjyh2idvdjhhu4yylbu2uwye 124 14 two two CD work_3hmjyh2idvdjhhu4yylbu2uwye 124 15 different different JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 16 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 17 masses masse NNS work_3hmjyh2idvdjhhu4yylbu2uwye 124 18 M. M. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 124 19 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 124 20 b b NNP work_3hmjyh2idvdjhhu4yylbu2uwye 124 21 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 124 22 Single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 23 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 124 24 reaction reaction NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 25 represented represent VBN work_3hmjyh2idvdjhhu4yylbu2uwye 124 26 by by IN work_3hmjyh2idvdjhhu4yylbu2uwye 124 27 a a DT work_3hmjyh2idvdjhhu4yylbu2uwye 124 28 t t NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 29 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 124 30 channel channel NNP work_3hmjyh2idvdjhhu4yylbu2uwye 124 31 Pomeron Pomeron NNP work_3hmjyh2idvdjhhu4yylbu2uwye 124 32 exchange exchange NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 33 diagram diagram NN work_3hmjyh2idvdjhhu4yylbu2uwye 124 34 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 125 1 diffractive diffractive JJ work_3hmjyh2idvdjhhu4yylbu2uwye 125 2 reaction reaction NN work_3hmjyh2idvdjhhu4yylbu2uwye 125 3 p+p p+p NNP work_3hmjyh2idvdjhhu4yylbu2uwye 125 4 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 125 5 > > XX work_3hmjyh2idvdjhhu4yylbu2uwye 125 6 p+X. p+X. NNP work_3hmjyh2idvdjhhu4yylbu2uwye 126 1 ( ( -LRB- work_3hmjyh2idvdjhhu4yylbu2uwye 126 2 a a LS work_3hmjyh2idvdjhhu4yylbu2uwye 126 3 ) ) -RRB- work_3hmjyh2idvdjhhu4yylbu2uwye 126 4 The the DT work_3hmjyh2idvdjhhu4yylbu2uwye 126 5 initial initial JJ work_3hmjyh2idvdjhhu4yylbu2uwye 126 6 state state NN work_3hmjyh2idvdjhhu4yylbu2uwye 126 7 momentum momentum NN work_3hmjyh2idvdjhhu4yylbu2uwye 126 8 vectors vector NNS work_3hmjyh2idvdjhhu4yylbu2uwye 126 9 in in IN work_3hmjyh2idvdjhhu4yylbu2uwye 126 10 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 126 11 , , , work_3hmjyh2idvdjhhu4yylbu2uwye 126 12 overall overall JJ work_3hmjyh2idvdjhhu4yylbu2uwye 126 13 centre centre NN work_3hmjyh2idvdjhhu4yylbu2uwye 126 14 — — : work_3hmjyh2idvdjhhu4yylbu2uwye 126 15 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 126 16 - - HYPH work_3hmjyh2idvdjhhu4yylbu2uwye 126 17 mass mass NN work_3hmjyh2idvdjhhu4yylbu2uwye 126 18 of of IN work_3hmjyh2idvdjhhu4yylbu2uwye 126 19 the the DT work_3hmjyh2idvdjhhu4yylbu2uwye 126 20 single single JJ work_3hmjyh2idvdjhhu4yylbu2uwye 126 21 Fig Fig NNP work_3hmjyh2idvdjhhu4yylbu2uwye 126 22 . . . work_3hmjyh2idvdjhhu4yylbu2uwye 127 1 1 1 CD work_3hmjyh2idvdjhhu4yylbu2uwye 127 2 Figure figure NN work_3hmjyh2idvdjhhu4yylbu2uwye 127 3 Captions Captions NNPS