id	sid	tid	token	lemma	pos
df65v694x2h	1	1	this	this	DET
df65v694x2h	1	2	dissertation	dissertation	NOUN
df65v694x2h	1	3	presents	present	VERB
df65v694x2h	1	4	research	research	NOUN
df65v694x2h	1	5	using	use	VERB
df65v694x2h	1	6	classically	classically	ADV
df65v694x2h	1	7	based	base	VERB
df65v694x2h	1	8	molecular	molecular	ADJ
df65v694x2h	1	9	dynamics	dynamic	NOUN
df65v694x2h	1	10	techniques	technique	NOUN
df65v694x2h	1	11	to	to	PART
df65v694x2h	1	12	study	study	VERB
df65v694x2h	1	13	the	the	DET
df65v694x2h	1	14	structure	structure	NOUN
df65v694x2h	1	15	and	and	CCONJ
df65v694x2h	1	16	dynamics	dynamic	NOUN
df65v694x2h	1	17	of	of	ADP
df65v694x2h	1	18	phases	phase	NOUN
df65v694x2h	1	19	exhibited	exhibit	VERB
df65v694x2h	1	20	by	by	ADP
df65v694x2h	1	21	unique	unique	ADJ
df65v694x2h	1	22	metallic	metallic	ADJ
df65v694x2h	1	23	systems	system	NOUN
df65v694x2h	1	24	.	.	PUNCT
df65v694x2h	2	1	these	these	DET
df65v694x2h	2	2	systems	system	NOUN
df65v694x2h	2	3	include	include	VERB
df65v694x2h	2	4	metallic	metallic	ADJ
df65v694x2h	2	5	glasses	glass	NOUN
df65v694x2h	2	6	,	,	PUNCT
df65v694x2h	2	7	nanoparticles	nanoparticle	NOUN
df65v694x2h	2	8	,	,	PUNCT
df65v694x2h	2	9	and	and	CCONJ
df65v694x2h	2	10	lastly	lastly	ADV
df65v694x2h	2	11	glassy	glassy	NOUN
df65v694x2h	2	12	nanoparticles	nanoparticle	NOUN
df65v694x2h	2	13	.	.	PUNCT
df65v694x2h	3	1	it	it	PRON
df65v694x2h	3	2	is	be	AUX
df65v694x2h	3	3	arranged	arrange	VERB
df65v694x2h	3	4	in	in	ADP
df65v694x2h	3	5	the	the	DET
df65v694x2h	3	6	order	order	NOUN
df65v694x2h	3	7	the	the	DET
df65v694x2h	3	8	research	research	NOUN
df65v694x2h	3	9	was	be	AUX
df65v694x2h	3	10	conducted	conduct	VERB
df65v694x2h	3	11	since	since	SCONJ
df65v694x2h	3	12	later	later	ADJ
df65v694x2h	3	13	material	material	NOUN
df65v694x2h	3	14	builds	build	VERB
df65v694x2h	3	15	on	on	ADP
df65v694x2h	3	16	formerly	formerly	ADV
df65v694x2h	3	17	presented	present	VERB
df65v694x2h	3	18	materials	material	NOUN
df65v694x2h	3	19	.	.	PUNCT
df65v694x2h	4	1	introductory	introductory	ADJ
df65v694x2h	4	2	material	material	NOUN
df65v694x2h	4	3	common	common	ADJ
df65v694x2h	4	4	to	to	ADP
df65v694x2h	4	5	all	all	DET
df65v694x2h	4	6	chapters	chapter	NOUN
df65v694x2h	4	7	in	in	ADP
df65v694x2h	4	8	this	this	DET
df65v694x2h	4	9	dissertation	dissertation	NOUN
df65v694x2h	4	10	relating	relate	VERB
df65v694x2h	4	11	to	to	ADP
df65v694x2h	4	12	molecular	molecular	ADJ
df65v694x2h	4	13	dynamics	dynamic	NOUN
df65v694x2h	4	14	techniques	technique	NOUN
df65v694x2h	4	15	is	be	AUX
df65v694x2h	4	16	presented	present	VERB
df65v694x2h	4	17	in	in	ADP
df65v694x2h	4	18	the	the	DET
df65v694x2h	4	19	opening	opening	NOUN
df65v694x2h	4	20	chapter	chapter	NOUN
df65v694x2h	4	21	.	.	PUNCT
df65v694x2h	5	1	this	this	PRON
df65v694x2h	5	2	includes	include	VERB
df65v694x2h	5	3	an	an	DET
df65v694x2h	5	4	introduction	introduction	NOUN
df65v694x2h	5	5	to	to	ADP
df65v694x2h	5	6	metallic	metallic	ADJ
df65v694x2h	5	7	force	force	NOUN
df65v694x2h	5	8	fields	field	NOUN
df65v694x2h	5	9	,	,	PUNCT
df65v694x2h	5	10	integration	integration	NOUN
df65v694x2h	5	11	of	of	ADP
df65v694x2h	5	12	the	the	DET
df65v694x2h	5	13	classical	classical	ADJ
df65v694x2h	5	14	equations	equation	NOUN
df65v694x2h	5	15	of	of	ADP
df65v694x2h	5	16	motion	motion	NOUN
df65v694x2h	5	17	and	and	CCONJ
df65v694x2h	5	18	langevin	langevin	PROPN
df65v694x2h	5	19	dynamics	dynamics	PROPN
df65v694x2h	5	20	.	.	PUNCT
df65v694x2h	6	1	chapter	chapter	NOUN
df65v694x2h	6	2	2	2	NUM
df65v694x2h	6	3	explores	explore	VERB
df65v694x2h	6	4	transport	transport	NOUN
df65v694x2h	6	5	dynamics	dynamic	NOUN
df65v694x2h	6	6	in	in	ADP
df65v694x2h	6	7	a	a	DET
df65v694x2h	6	8	known	know	VERB
df65v694x2h	6	9	glass	glass	NOUN
df65v694x2h	6	10	former	former	ADJ
df65v694x2h	6	11	(	(	PUNCT
df65v694x2h	6	12	a	a	DET
df65v694x2h	6	13	mixture	mixture	NOUN
df65v694x2h	6	14	of	of	ADP
df65v694x2h	6	15	silver	silver	NOUN
df65v694x2h	6	16	and	and	CCONJ
df65v694x2h	6	17	copper	copper	NOUN
df65v694x2h	6	18	)	)	PUNCT
df65v694x2h	6	19	.	.	PUNCT
df65v694x2h	7	1	this	this	DET
df65v694x2h	7	2	system	system	NOUN
df65v694x2h	7	3	presents	present	VERB
df65v694x2h	7	4	an	an	DET
df65v694x2h	7	5	interesting	interesting	ADJ
df65v694x2h	7	6	target	target	NOUN
df65v694x2h	7	7	for	for	ADP
df65v694x2h	7	8	computational	computational	ADJ
df65v694x2h	7	9	study	study	NOUN
df65v694x2h	7	10	because	because	SCONJ
df65v694x2h	7	11	it	it	PRON
df65v694x2h	7	12	is	be	AUX
df65v694x2h	7	13	a	a	DET
df65v694x2h	7	14	real	real	ADJ
df65v694x2h	7	15	glass	glass	NOUN
df65v694x2h	7	16	forming	form	VERB
df65v694x2h	7	17	system	system	NOUN
df65v694x2h	7	18	that	that	PRON
df65v694x2h	7	19	closely	closely	ADV
df65v694x2h	7	20	resembles	resemble	VERB
df65v694x2h	7	21	model	model	NOUN
df65v694x2h	7	22	binary	binary	ADJ
df65v694x2h	7	23	lennard	lennard	PROPN
df65v694x2h	7	24	-	-	PUNCT
df65v694x2h	7	25	jones	jones	PROPN
df65v694x2h	7	26	systems	system	NOUN
df65v694x2h	7	27	that	that	PRON
df65v694x2h	7	28	have	have	AUX
df65v694x2h	7	29	been	be	AUX
df65v694x2h	7	30	previously	previously	ADV
df65v694x2h	7	31	studied	study	VERB
df65v694x2h	7	32	.	.	PUNCT
df65v694x2h	8	1	lennard	lennard	PROPN
df65v694x2h	8	2	-	-	PUNCT
df65v694x2h	8	3	jones	jones	PROPN
df65v694x2h	8	4	glasses	glass	NOUN
df65v694x2h	8	5	are	be	AUX
df65v694x2h	8	6	interesting	interesting	ADJ
df65v694x2h	8	7	because	because	SCONJ
df65v694x2h	8	8	they	they	PRON
df65v694x2h	8	9	have	have	VERB
df65v694x2h	8	10	decay	decay	NOUN
df65v694x2h	8	11	functions	function	NOUN
df65v694x2h	8	12	that	that	PRON
df65v694x2h	8	13	obey	obey	VERB
df65v694x2h	8	14	the	the	DET
df65v694x2h	8	15	kohlrausch	kohlrausch	PROPN
df65v694x2h	8	16	-	-	PUNCT
df65v694x2h	8	17	williams	williams	PROPN
df65v694x2h	8	18	-	-	PUNCT
df65v694x2h	8	19	watts	watts	PROPN
df65v694x2h	8	20	(	(	PUNCT
df65v694x2h	8	21	kww	kww	PROPN
df65v694x2h	8	22	)	)	PUNCT
df65v694x2h	8	23	law	law	NOUN
df65v694x2h	8	24	.	.	PUNCT
df65v694x2h	9	1	comparisons	comparison	NOUN
df65v694x2h	9	2	will	will	AUX
df65v694x2h	9	3	be	be	AUX
df65v694x2h	9	4	made	make	VERB
df65v694x2h	9	5	between	between	ADP
df65v694x2h	9	6	dynamics	dynamic	NOUN
df65v694x2h	9	7	(	(	PUNCT
df65v694x2h	9	8	mean	mean	VERB
df65v694x2h	9	9	squared	squared	ADJ
df65v694x2h	9	10	displacement	displacement	NOUN
df65v694x2h	9	11	,	,	PUNCT
df65v694x2h	9	12	cage	cage	NOUN
df65v694x2h	9	13	correlation	correlation	NOUN
df65v694x2h	9	14	funcion	funcion	NOUN
df65v694x2h	9	15	)	)	PUNCT
df65v694x2h	9	16	in	in	ADP
df65v694x2h	9	17	model	model	NOUN
df65v694x2h	9	18	systems	system	NOUN
df65v694x2h	9	19	and	and	CCONJ
df65v694x2h	9	20	models	model	NOUN
df65v694x2h	9	21	of	of	ADP
df65v694x2h	9	22	real	real	ADJ
df65v694x2h	9	23	glass	glass	NOUN
df65v694x2h	9	24	formers	former	NOUN
df65v694x2h	9	25	.	.	PUNCT
df65v694x2h	10	1	additionally	additionally	ADV
df65v694x2h	10	2	,	,	PUNCT
df65v694x2h	10	3	a	a	DET
df65v694x2h	10	4	model	model	NOUN
df65v694x2h	10	5	for	for	ADP
df65v694x2h	10	6	fractal	fractal	ADJ
df65v694x2h	10	7	distributions	distribution	NOUN
df65v694x2h	10	8	of	of	ADP
df65v694x2h	10	9	waiting	waiting	NOUN
df65v694x2h	10	10	times	time	NOUN
df65v694x2h	10	11	in	in	ADP
df65v694x2h	10	12	glassy	glassy	NOUN
df65v694x2h	10	13	materials	material	NOUN
df65v694x2h	10	14	will	will	AUX
df65v694x2h	10	15	be	be	AUX
df65v694x2h	10	16	examined	examine	VERB
df65v694x2h	10	17	and	and	CCONJ
df65v694x2h	10	18	compared	compare	VERB
df65v694x2h	10	19	to	to	ADP
df65v694x2h	10	20	the	the	DET
df65v694x2h	10	21	waiting	wait	VERB
df65v694x2h	10	22	times	time	NOUN
df65v694x2h	10	23	in	in	ADP
df65v694x2h	10	24	this	this	DET
df65v694x2h	10	25	metallic	metallic	ADJ
df65v694x2h	10	26	glass	glass	NOUN
df65v694x2h	10	27	.	.	PUNCT
df65v694x2h	11	1	it	it	PRON
df65v694x2h	11	2	has	have	AUX
df65v694x2h	11	3	been	be	AUX
df65v694x2h	11	4	experimentally	experimentally	ADV
df65v694x2h	11	5	observed	observe	VERB
df65v694x2h	11	6	that	that	SCONJ
df65v694x2h	11	7	spontaneous	spontaneous	ADJ
df65v694x2h	11	8	alloying	alloying	NOUN
df65v694x2h	11	9	of	of	ADP
df65v694x2h	11	10	bimetallic	bimetallic	ADJ
df65v694x2h	11	11	core	core	NOUN
df65v694x2h	11	12	-	-	PUNCT
df65v694x2h	11	13	shell	shell	NOUN
df65v694x2h	11	14	au	au	X
df65v694x2h	11	15	-	-	PUNCT
df65v694x2h	11	16	ag	ag	NOUN
df65v694x2h	11	17	nanoparticles	nanoparticle	NOUN
df65v694x2h	11	18	(	(	PUNCT
df65v694x2h	11	19	nps	nps	PROPN
df65v694x2h	11	20	)	)	PUNCT
df65v694x2h	11	21	can	can	AUX
df65v694x2h	11	22	occur	occur	VERB
df65v694x2h	11	23	shortly	shortly	ADV
df65v694x2h	11	24	after	after	ADP
df65v694x2h	11	25	synthesis	synthesis	NOUN
df65v694x2h	11	26	.	.	PUNCT
df65v694x2h	12	1	chapter	chapter	NOUN
df65v694x2h	12	2	3	3	NUM
df65v694x2h	12	3	will	will	AUX
df65v694x2h	12	4	use	use	VERB
df65v694x2h	12	5	computational	computational	ADJ
df65v694x2h	12	6	techniques	technique	NOUN
df65v694x2h	12	7	to	to	PART
df65v694x2h	12	8	explore	explore	VERB
df65v694x2h	12	9	a	a	DET
df65v694x2h	12	10	possible	possible	ADJ
df65v694x2h	12	11	mechanism	mechanism	NOUN
df65v694x2h	12	12	for	for	ADP
df65v694x2h	12	13	such	such	ADJ
df65v694x2h	12	14	alloying	alloy	VERB
df65v694x2h	12	15	.	.	PUNCT
df65v694x2h	13	1	nanoparticles	nanoparticle	NOUN
df65v694x2h	13	2	differ	differ	VERB
df65v694x2h	13	3	in	in	ADP
df65v694x2h	13	4	many	many	ADJ
df65v694x2h	13	5	ways	way	NOUN
df65v694x2h	13	6	from	from	ADP
df65v694x2h	13	7	their	their	PRON
df65v694x2h	13	8	bulk	bulk	ADJ
df65v694x2h	13	9	counterparts	counterpart	NOUN
df65v694x2h	13	10	in	in	ADP
df65v694x2h	13	11	both	both	DET
df65v694x2h	13	12	physical	physical	ADJ
df65v694x2h	13	13	and	and	CCONJ
df65v694x2h	13	14	chemical	chemical	NOUN
df65v694x2h	13	15	properties	property	NOUN
df65v694x2h	13	16	.	.	PUNCT
df65v694x2h	14	1	some	some	PRON
df65v694x2h	14	2	of	of	ADP
df65v694x2h	14	3	these	these	DET
df65v694x2h	14	4	differences	difference	NOUN
df65v694x2h	14	5	are	be	AUX
df65v694x2h	14	6	attributed	attribute	VERB
df65v694x2h	14	7	to	to	ADP
df65v694x2h	14	8	the	the	DET
df65v694x2h	14	9	large	large	ADJ
df65v694x2h	14	10	surface	surface	NOUN
df65v694x2h	14	11	area	area	NOUN
df65v694x2h	14	12	to	to	PART
df65v694x2h	14	13	volume	volume	VERB
df65v694x2h	14	14	ration	ration	NOUN
df65v694x2h	14	15	present	present	ADJ
df65v694x2h	14	16	in	in	ADP
df65v694x2h	14	17	nanoparticles	nanoparticle	NOUN
df65v694x2h	14	18	.	.	PUNCT
df65v694x2h	15	1	computational	computational	ADJ
df65v694x2h	15	2	techniques	technique	NOUN
df65v694x2h	15	3	will	will	AUX
df65v694x2h	15	4	be	be	AUX
df65v694x2h	15	5	used	use	VERB
df65v694x2h	15	6	to	to	PART
df65v694x2h	15	7	explore	explore	VERB
df65v694x2h	15	8	whether	whether	SCONJ
df65v694x2h	15	9	the	the	DET
df65v694x2h	15	10	hypothesis	hypothesis	NOUN
df65v694x2h	15	11	that	that	SCONJ
df65v694x2h	15	12	a	a	DET
df65v694x2h	15	13	small	small	ADJ
df65v694x2h	15	14	fraction	fraction	NOUN
df65v694x2h	15	15	of	of	ADP
df65v694x2h	15	16	vacancies	vacancy	NOUN
df65v694x2h	15	17	formed	form	VERB
df65v694x2h	15	18	at	at	ADP
df65v694x2h	15	19	the	the	DET
df65v694x2h	15	20	au	au	PROPN
df65v694x2h	15	21	-	-	PUNCT
df65v694x2h	15	22	ag	ag	PROPN
df65v694x2h	15	23	core	core	ADJ
df65v694x2h	15	24	-	-	PUNCT
df65v694x2h	15	25	shell	shell	NOUN
df65v694x2h	15	26	interface	interface	NOUN
df65v694x2h	15	27	,	,	PUNCT
df65v694x2h	15	28	during	during	ADP
df65v694x2h	15	29	synthesis	synthesis	NOUN
df65v694x2h	15	30	,	,	PUNCT
df65v694x2h	15	31	can	can	AUX
df65v694x2h	15	32	result	result	VERB
df65v694x2h	15	33	in	in	ADP
df65v694x2h	15	34	the	the	DET
df65v694x2h	15	35	alloying	alloying	NOUN
df65v694x2h	15	36	of	of	ADP
df65v694x2h	15	37	the	the	DET
df65v694x2h	15	38	nanoparticle	nanoparticle	NOUN
df65v694x2h	15	39	.	.	PUNCT
df65v694x2h	16	1	and	and	CCONJ
df65v694x2h	16	2	,	,	PUNCT
df65v694x2h	16	3	if	if	SCONJ
df65v694x2h	16	4	this	this	DET
df65v694x2h	16	5	alloying	alloying	NOUN
df65v694x2h	16	6	occurs	occur	VERB
df65v694x2h	16	7	on	on	ADP
df65v694x2h	16	8	a	a	DET
df65v694x2h	16	9	time	time	NOUN
df65v694x2h	16	10	scale	scale	NOUN
df65v694x2h	16	11	consistent	consistent	ADJ
df65v694x2h	16	12	with	with	ADP
df65v694x2h	16	13	experimental	experimental	ADJ
df65v694x2h	16	14	observations	observation	NOUN
df65v694x2h	16	15	.	.	PUNCT
df65v694x2h	17	1	chapter	chapter	NOUN
df65v694x2h	17	2	4	4	NUM
df65v694x2h	17	3	computationally	computationally	ADV
df65v694x2h	17	4	explores	explore	VERB
df65v694x2h	17	5	experimental	experimental	ADJ
df65v694x2h	17	6	observations	observation	NOUN
df65v694x2h	17	7	involving	involve	VERB
df65v694x2h	17	8	the	the	DET
df65v694x2h	17	9	transient	transient	ADJ
df65v694x2h	17	10	response	response	NOUN
df65v694x2h	17	11	of	of	ADP
df65v694x2h	17	12	metallic	metallic	ADJ
df65v694x2h	17	13	nanoparticles	nanoparticle	NOUN
df65v694x2h	17	14	to	to	ADP
df65v694x2h	17	15	the	the	DET
df65v694x2h	17	16	nearly	nearly	ADV
df65v694x2h	17	17	instantaneous	instantaneous	ADJ
df65v694x2h	17	18	heating	heating	NOUN
df65v694x2h	17	19	undergone	undergone	ADJ
df65v694x2h	17	20	when	when	SCONJ
df65v694x2h	17	21	photons	photon	NOUN
df65v694x2h	17	22	are	be	AUX
df65v694x2h	17	23	absorbed	absorb	VERB
df65v694x2h	17	24	during	during	ADP
df65v694x2h	17	25	ultrafast	ultrafast	ADJ
df65v694x2h	17	26	laser	laser	NOUN
df65v694x2h	17	27	excitation	excitation	NOUN
df65v694x2h	17	28	experiments	experiment	NOUN
df65v694x2h	17	29	.	.	PUNCT
df65v694x2h	18	1	because	because	SCONJ
df65v694x2h	18	2	the	the	DET
df65v694x2h	18	3	time	time	NOUN
df65v694x2h	18	4	scale	scale	NOUN
df65v694x2h	18	5	for	for	ADP
df65v694x2h	18	6	heating	heating	NOUN
df65v694x2h	18	7	is	be	AUX
df65v694x2h	18	8	faster	fast	ADJ
df65v694x2h	18	9	than	than	ADP
df65v694x2h	18	10	a	a	DET
df65v694x2h	18	11	single	single	ADJ
df65v694x2h	18	12	period	period	NOUN
df65v694x2h	18	13	of	of	ADP
df65v694x2h	18	14	the	the	DET
df65v694x2h	18	15	breathing	breathing	NOUN
df65v694x2h	18	16	mode	mode	NOUN
df65v694x2h	18	17	for	for	ADP
df65v694x2h	18	18	spherical	spherical	ADJ
df65v694x2h	18	19	nanoparticles	nanoparticle	NOUN
df65v694x2h	18	20	,	,	PUNCT
df65v694x2h	18	21	hot	hot	ADJ
df65v694x2h	18	22	-	-	PUNCT
df65v694x2h	18	23	electron	electron	NOUN
df65v694x2h	18	24	pressure	pressure	NOUN
df65v694x2h	18	25	and	and	CCONJ
df65v694x2h	18	26	lattice	lattice	NOUN
df65v694x2h	18	27	heating	heating	NOUN
df65v694x2h	18	28	contribute	contribute	NOUN
df65v694x2h	18	29	to	to	ADP
df65v694x2h	18	30	thermal	thermal	ADJ
df65v694x2h	18	31	excitation	excitation	NOUN
df65v694x2h	18	32	of	of	ADP
df65v694x2h	18	33	the	the	DET
df65v694x2h	18	34	lattice	lattice	NOUN
df65v694x2h	18	35	.	.	PUNCT
df65v694x2h	19	1	both	both	DET
df65v694x2h	19	2	mechanism	mechanism	NOUN
df65v694x2h	19	3	are	be	AUX
df65v694x2h	19	4	rapid	rapid	ADJ
df65v694x2h	19	5	enough	enough	ADV
df65v694x2h	19	6	to	to	PART
df65v694x2h	19	7	coherently	coherently	ADV
df65v694x2h	19	8	excite	excite	VERB
df65v694x2h	19	9	the	the	DET
df65v694x2h	19	10	breathing	breathing	NOUN
df65v694x2h	19	11	mode	mode	NOUN
df65v694x2h	19	12	ofthe	ofthe	DET
df65v694x2h	19	13	spherical	spherical	ADJ
df65v694x2h	19	14	particles	particle	NOUN
df65v694x2h	19	15	.	.	PUNCT
df65v694x2h	20	1	molecular	molecular	ADJ
df65v694x2h	20	2	dynamics	dynamic	NOUN
df65v694x2h	20	3	simulations	simulation	NOUN
df65v694x2h	20	4	are	be	AUX
df65v694x2h	20	5	used	use	VERB
df65v694x2h	20	6	to	to	PART
df65v694x2h	20	7	replicate	replicate	VERB
df65v694x2h	20	8	the	the	DET
df65v694x2h	20	9	laser	laser	NOUN
df65v694x2h	20	10	-	-	PUNCT
df65v694x2h	20	11	excitation	excitation	NOUN
df65v694x2h	20	12	event	event	NOUN
df65v694x2h	20	13	allowing	allow	VERB
df65v694x2h	20	14	the	the	DET
df65v694x2h	20	15	nanoparticle	nanoparticle	NOUN
df65v694x2h	20	16	dynamics	dynamic	NOUN
df65v694x2h	20	17	to	to	PART
df65v694x2h	20	18	be	be	AUX
df65v694x2h	20	19	probed	probe	VERB
df65v694x2h	20	20	after	after	SCONJ
df65v694x2h	20	21	excitation.it	excitation.it	NUM
df65v694x2h	20	22	was	be	AUX
df65v694x2h	20	23	observed	observe	VERB
df65v694x2h	20	24	during	during	ADP
df65v694x2h	20	25	the	the	DET
df65v694x2h	20	26	studies	study	NOUN
df65v694x2h	20	27	of	of	ADP
df65v694x2h	20	28	metallic	metallic	ADJ
df65v694x2h	20	29	nanoparticles	nanoparticle	NOUN
df65v694x2h	20	30	dissused	dissuse	VERB
df65v694x2h	20	31	on	on	ADP
df65v694x2h	20	32	in	in	ADP
df65v694x2h	20	33	chapter	chapter	NOUN
df65v694x2h	20	34	4	4	NUM
df65v694x2h	20	35	that	that	SCONJ
df65v694x2h	20	36	the	the	DET
df65v694x2h	20	37	time	time	NOUN
df65v694x2h	20	38	scale	scale	NOUN
df65v694x2h	20	39	for	for	ADP
df65v694x2h	20	40	the	the	DET
df65v694x2h	20	41	cooling	cooling	NOUN
df65v694x2h	20	42	of	of	ADP
df65v694x2h	20	43	these	these	DET
df65v694x2h	20	44	particle	particle	NOUN
df65v694x2h	20	45	is	be	AUX
df65v694x2h	20	46	very	very	ADV
df65v694x2h	20	47	short	short	ADJ
df65v694x2h	20	48	(	(	PUNCT
df65v694x2h	20	49	on	on	ADP
df65v694x2h	20	50	the	the	DET
df65v694x2h	20	51	order	order	NOUN
df65v694x2h	20	52	of	of	ADP
df65v694x2h	20	53	tens	ten	NOUN
df65v694x2h	20	54	of	of	ADP
df65v694x2h	20	55	picoseconds	picosecond	NOUN
df65v694x2h	20	56	)	)	PUNCT
df65v694x2h	20	57	.	.	PUNCT
df65v694x2h	21	1	since	since	SCONJ
df65v694x2h	21	2	these	these	DET
df65v694x2h	21	3	experiments	experiment	NOUN
df65v694x2h	21	4	are	be	AUX
df65v694x2h	21	5	carried	carry	VERB
df65v694x2h	21	6	out	out	ADP
df65v694x2h	21	7	in	in	ADP
df65v694x2h	21	8	condensed	condensed	ADJ
df65v694x2h	21	9	phase	phase	NOUN
df65v694x2h	21	10	surroundings	surrounding	NOUN
df65v694x2h	21	11	,	,	PUNCT
df65v694x2h	21	12	the	the	DET
df65v694x2h	21	13	large	large	ADJ
df65v694x2h	21	14	surface	surface	NOUN
df65v694x2h	21	15	area	area	NOUN
df65v694x2h	21	16	to	to	PART
df65v694x2h	21	17	volume	volume	NOUN
df65v694x2h	21	18	ratio	ratio	NOUN
df65v694x2h	21	19	makes	make	VERB
df65v694x2h	21	20	the	the	DET
df65v694x2h	21	21	heat	heat	NOUN
df65v694x2h	21	22	transfer	transfer	NOUN
df65v694x2h	21	23	to	to	ADP
df65v694x2h	21	24	the	the	DET
df65v694x2h	21	25	surrounding	surround	VERB
df65v694x2h	21	26	solvent	solvent	NOUN
df65v694x2h	21	27	a	a	DET
df65v694x2h	21	28	relatively	relatively	ADV
df65v694x2h	21	29	rapid	rapid	ADJ
df65v694x2h	21	30	process	process	NOUN
df65v694x2h	21	31	.	.	PUNCT
df65v694x2h	22	1	this	this	PRON
df65v694x2h	22	2	leads	lead	VERB
df65v694x2h	22	3	to	to	ADP
df65v694x2h	22	4	cooling	cool	VERB
df65v694x2h	22	5	rates	rate	NOUN
df65v694x2h	22	6	commensurate	commensurate	ADJ
df65v694x2h	22	7	with	with	ADP
df65v694x2h	22	8	those	those	PRON
df65v694x2h	22	9	experimentally	experimentally	ADV
df65v694x2h	22	10	observed	observe	VERB
df65v694x2h	22	11	for	for	ADP
df65v694x2h	22	12	glass	glass	NOUN
df65v694x2h	22	13	formation	formation	NOUN
df65v694x2h	22	14	.	.	PUNCT
df65v694x2h	23	1	molecular	molecular	ADJ
df65v694x2h	23	2	dynamics	dynamic	NOUN
df65v694x2h	23	3	will	will	AUX
df65v694x2h	23	4	be	be	AUX
df65v694x2h	23	5	used	use	VERB
df65v694x2h	23	6	to	to	PART
df65v694x2h	23	7	determine	determine	VERB
df65v694x2h	23	8	if	if	SCONJ
df65v694x2h	23	9	it	it	PRON
df65v694x2h	23	10	is	be	AUX
df65v694x2h	23	11	plausible	plausible	ADJ
df65v694x2h	23	12	to	to	PART
df65v694x2h	23	13	construct	construct	VERB
df65v694x2h	23	14	a	a	DET
df65v694x2h	23	15	glassy	glassy	NOUN
df65v694x2h	23	16	nanobead	nanobead	NOUN
df65v694x2h	23	17	from	from	ADP
df65v694x2h	23	18	the	the	DET
df65v694x2h	23	19	metallic	metallic	ADJ
df65v694x2h	23	20	glass	glass	NOUN
df65v694x2h	23	21	forming	form	VERB
df65v694x2h	23	22	system	system	NOUN
df65v694x2h	23	23	discussed	discuss	VERB
df65v694x2h	23	24	in	in	ADP
df65v694x2h	23	25	chapter	chapter	NOUN
df65v694x2h	23	26	5	5	NUM
df65v694x2h	23	27	.	.	PUNCT
df65v694x2h	24	1	it	it	PRON
df65v694x2h	24	2	may	may	AUX
df65v694x2h	24	3	be	be	AUX
df65v694x2h	24	4	feasible	feasible	ADJ
df65v694x2h	24	5	to	to	PART
df65v694x2h	24	6	use	use	VERB
df65v694x2h	24	7	laser	laser	NOUN
df65v694x2h	24	8	excitation	excitation	NOUN
df65v694x2h	24	9	to	to	PART
df65v694x2h	24	10	melt	melt	VERB
df65v694x2h	24	11	,	,	PUNCT
df65v694x2h	24	12	alloy	alloy	ADJ
df65v694x2h	24	13	and	and	CCONJ
df65v694x2h	24	14	quench	quench	NOUN
df65v694x2h	24	15	copper	copper	NOUN
df65v694x2h	24	16	-	-	PUNCT
df65v694x2h	24	17	silver	silver	NOUN
df65v694x2h	24	18	nanoparticles	nanoparticle	NOUN
df65v694x2h	24	19	in	in	ADP
df65v694x2h	24	20	order	order	NOUN
df65v694x2h	24	21	to	to	PART
df65v694x2h	24	22	form	form	VERB
df65v694x2h	24	23	a	a	DET
df65v694x2h	24	24	glassy	glassy	NOUN
df65v694x2h	24	25	system	system	NOUN
df65v694x2h	24	26	.	.	PUNCT