id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_v2epug2k6jh73oh3kif4fr6r5q	Amish G. Joshi	Magnetic instabilities along the superconducting phase boundary of Nb∕Ni multilayers	2007.0	4	.pdf	application/pdf	3302	375	68	http://scitation.aip.org/search?value1=Amish+G.+Joshi&option1=author http://scitation.aip.org/search?value1=Sergiy+A.+Kryukov&option1=author http://scitation.aip.org/search?value1=Lance+E.+De+Long&option1=author http://scitation.aip.org/search?value1=Elvira+M.+Gonzalez&option1=author http://scitation.aip.org/search?value1=Elena+Navarro&option1=author http://scitation.aip.org/search?value1=Javier+E.+Villegas&option1=author http://scitation.aip.org/search?value1=Jose+L.+Vicent&option1=author � 0.01 – 0.7 K, for a �Nb�23 nm� / Ni�5 nm��5 multilayer �ML� in dc magnetic fields applied nearly between SC and ferromagnetic layers that involve magnetic pair breaking effects, "pi phase shifts" layers alter the magnitude and phase of the complex SC order parameter that determines the stability of the SC state of SC films.11,15 In these cases, the TC shifts reflect an equilibrium phase boundary when carefully measured at "vanishing" drive current.15,16 a �Nb�23 nm� / Ni�5 nm��5 ML in parallel magnetic field �oH = 0.12 T with 2. Magnetic field �H�-temperature �T� "phase boundary" between the 3. �Color online� Magnetic field �H�-temperature �T� "phase boundary" between the SC and normal states for a �Nb�23 nm� / Ni�5 nm��5 ML, that alter the phase and coupling between the SC order parameter of adjacent Nb layers with applied dc field.	./cache/work_v2epug2k6jh73oh3kif4fr6r5q.pdf	./txt/work_v2epug2k6jh73oh3kif4fr6r5q.txt