Determination of the lower critical field Hc1(T) in FeSe single crystals by magnetization measurements

Abdel-Hafiez, M.; Vasiliev, A. N.; Chareev, D. A.; Moshchalkov, V. V.; Silhanek, A. V.

doi:10.1016/j.physc.2014.04.018

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Поле DC	Значение	Язык
dc.contributor.author	Abdel-Hafiez, M.	en
dc.contributor.author	Vasiliev, A. N.	en
dc.contributor.author	Chareev, D. A.	en
dc.contributor.author	Moshchalkov, V. V.	en
dc.contributor.author	Silhanek, A. V.	en
dc.date.accessioned	2021-08-31T15:05:21Z	-
dc.date.available	2021-08-31T15:05:21Z	-
dc.date.issued	2014	-
dc.identifier.citation	Determination of the lower critical field Hc1(T) in FeSe single crystals by magnetization measurements / M. Abdel-Hafiez, A. N. Vasiliev, D. A. Chareev, et al. — DOI 10.1016/j.physc.2014.04.018 // Physica C: Superconductivity and its Applications. — 2014. — Vol. 503. — P. 143-145.	en
dc.identifier.issn	9214534	-
dc.identifier.other	Final	2
dc.identifier.other	All Open Access, Green	3
dc.identifier.other	https://www.scopus.com/inward/record.uri?eid=2-s2.0-84904393027&doi=10.1016%2fj.physc.2014.04.018&partnerID=40&md5=4439fc6ad51bbb4e63b4a113856214c7
dc.identifier.uri	http://elar.urfu.ru/handle/10995/102784	-
dc.description.abstract	In a recent work, Abdel-Hafiez et al. [1] we have determined the temperature dependence of the lower critical field Hc1(T) of a FeSe single crystal under static magnetic fields H parallel to the crystallographic c axis. The temperature dependence of the first vortex penetration field has been experimentally obtained by two independent methods and the corresponding Hc1(T) was deduced by taking into account demagnetization factors. In general, the first vortex penetration field may not reflect the true Hc1(T) due to the presence of surface barriers. In this work we show that magnetic hysteresis loops are very symmetric close to the critical temperature Tc = 9 K evidencing the absence of surface barriers and thus validating the previously reported determination of Hc1(T) and the main observations that the superconducting energy gap in FeSe is nodeless. © 2014 Elsevier B.V. All rights reserved.	en
dc.format.mimetype	application/pdf	en
dc.language.iso	en	en
dc.publisher	Elsevier	en
dc.rights	info:eu-repo/semantics/openAccess	en
dc.source	Phys C Supercond Appl	2
dc.source	Physica C: Superconductivity and its Applications	en
dc.subject	FESE SUPERCONDUCTOR	en
dc.subject	LOWER CRITICAL FIELD	en
dc.subject	MAGNETIC PROPERTIES	en
dc.subject	SINGLE CRYSTAL	en
dc.subject	MAGNETIC PROPERTIES	en
dc.subject	SUPERCONDUCTIVITY	en
dc.subject	TEMPERATURE DISTRIBUTION	en
dc.subject	VORTEX FLOW	en
dc.subject	CRITICAL TEMPERATURES	en
dc.subject	DEMAGNETIZATION FACTORS	en
dc.subject	FESE SUPERCONDUCTORS	en
dc.subject	LOWER CRITICAL FIELD	en
dc.subject	MAGNETIZATION MEASUREMENTS	en
dc.subject	STATIC MAGNETIC FIELDS	en
dc.subject	SUPERCONDUCTING ENERGY GAP	en
dc.subject	TEMPERATURE DEPENDENCE	en
dc.subject	SINGLE CRYSTALS	en
dc.title	Determination of the lower critical field Hc1(T) in FeSe single crystals by magnetization measurements	en
dc.type	Article	en
dc.type	info:eu-repo/semantics/article	en
dc.type	info:eu-repo/semantics/publishedVersion	en
dc.identifier.doi	10.1016/j.physc.2014.04.018	-
dc.identifier.scopus	84904393027	-
local.contributor.employee	Abdel-Hafiez, M., Département de Physique, Université de Liège, B-4000 Sart Tilman, Belgium, Physics Department, Faculty of Science, Fayoum University, 63514 Fayoum, Egypt
local.contributor.employee	Vasiliev, A.N., Low Temperature Physics and Superconductivity Department, Physics Faculty, M.V. Lomonosov Moscow State University, 119991 Moscow, Russian Federation, Theoretical Physics and Applied Mathematics Department, Ural Federal University, 620002 Ekaterinburg, Russian Federation
local.contributor.employee	Chareev, D.A., Institute of Experimental Mineralogy, Russian Academy of Sciences, Chernogolovka, Moscow 142432, Russian Federation
local.contributor.employee	Moshchalkov, V.V., INPAC - Institute for Nanoscale Physics and Chemistry, KU Leuven, Celestijnenlaan 200D, B-3001 Leuven, Belgium
local.contributor.employee	Silhanek, A.V., Département de Physique, Université de Liège, B-4000 Sart Tilman, Belgium
local.description.firstpage	143	-
local.description.lastpage	145	-
local.volume	503	-
dc.identifier.wos	000340070600030	-
local.contributor.department	Département de Physique, Université de Liège, B-4000 Sart Tilman, Belgium
local.contributor.department	Physics Department, Faculty of Science, Fayoum University, 63514 Fayoum, Egypt
local.contributor.department	Low Temperature Physics and Superconductivity Department, Physics Faculty, M.V. Lomonosov Moscow State University, 119991 Moscow, Russian Federation
local.contributor.department	Theoretical Physics and Applied Mathematics Department, Ural Federal University, 620002 Ekaterinburg, Russian Federation
local.contributor.department	Institute of Experimental Mineralogy, Russian Academy of Sciences, Chernogolovka, Moscow 142432, Russian Federation
local.contributor.department	INPAC - Institute for Nanoscale Physics and Chemistry, KU Leuven, Celestijnenlaan 200D, B-3001 Leuven, Belgium
local.identifier.pure	0b3eb3f3-b5a9-48dc-8ea9-27516e7d8f90	uuid
local.identifier.pure	425122	-
local.identifier.eid	2-s2.0-84904393027	-
local.identifier.wos	WOS:000340070600030	-
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