Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone

R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
American Physical Society (APS)
Published 2018

Publication Date:	2018-12-13
Publisher:	American Physical Society (APS)
Print ISSN:	1098-0121
Electronic ISSN:	1095-3795
Topics:	Physics
Keywords:	Superfluidity and superconductivity
Published by:	http://www.aps.org/

Staff View

_version_	1836399104749469696
autor	R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
beschreibung	Author(s): R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen Iron selenide superconductors exhibit unique characteristics distinct from iron pnictides, especially in the electron-doped region. Here, the authors report the synthesis of a new family of Li x (C 3 N 2 H 10 ) 0 . 37 FeSe materials, which features a continuous superconducting dome harboring a Lifshitz transition within the wide range of 0.06 ≤ x ≤ 0.68. Under electron doping, the anion height of FeSe layers deviates linearly away from the optimized values of pnictides. This feature leads to a new superconducting zone with unique electronic structures and strong orbital-selective electronic correlation. [Phys. Rev. B 98, 214508] Published Wed Dec 12, 2018
citation_standardnr	6368943
datenlieferant	ipn_articles
feed_id	52538
feed_publisher	American Physical Society (APS)
feed_publisher_url	http://www.aps.org/
insertion_date	2018-12-13
journaleissn	1095-3795
journalissn	1098-0121
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	American Physical Society (APS)
quelle	Physical Review B
relation	http://link.aps.org/doi/10.1103/PhysRevB.98.214508
schlagwort	Superfluidity and superconductivity
search_space	articles
shingle_author_1	R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
shingle_author_2	R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
shingle_author_3	R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
shingle_author_4	R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen
shingle_catch_all_1	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone Superfluidity and superconductivity Author(s): R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen Iron selenide superconductors exhibit unique characteristics distinct from iron pnictides, especially in the electron-doped region. Here, the authors report the synthesis of a new family of Li x (C 3 N 2 H 10 ) 0 . 37 FeSe materials, which features a continuous superconducting dome harboring a Lifshitz transition within the wide range of 0.06 ≤ x ≤ 0.68. Under electron doping, the anion height of FeSe layers deviates linearly away from the optimized values of pnictides. This feature leads to a new superconducting zone with unique electronic structures and strong orbital-selective electronic correlation. [Phys. Rev. B 98, 214508] Published Wed Dec 12, 2018 R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen American Physical Society (APS) 1098-0121 10980121 1095-3795 10953795
shingle_catch_all_2	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone Superfluidity and superconductivity Author(s): R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen Iron selenide superconductors exhibit unique characteristics distinct from iron pnictides, especially in the electron-doped region. Here, the authors report the synthesis of a new family of Li x (C 3 N 2 H 10 ) 0 . 37 FeSe materials, which features a continuous superconducting dome harboring a Lifshitz transition within the wide range of 0.06 ≤ x ≤ 0.68. Under electron doping, the anion height of FeSe layers deviates linearly away from the optimized values of pnictides. This feature leads to a new superconducting zone with unique electronic structures and strong orbital-selective electronic correlation. [Phys. Rev. B 98, 214508] Published Wed Dec 12, 2018 R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen American Physical Society (APS) 1098-0121 10980121 1095-3795 10953795
shingle_catch_all_3	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone Superfluidity and superconductivity Author(s): R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen Iron selenide superconductors exhibit unique characteristics distinct from iron pnictides, especially in the electron-doped region. Here, the authors report the synthesis of a new family of Li x (C 3 N 2 H 10 ) 0 . 37 FeSe materials, which features a continuous superconducting dome harboring a Lifshitz transition within the wide range of 0.06 ≤ x ≤ 0.68. Under electron doping, the anion height of FeSe layers deviates linearly away from the optimized values of pnictides. This feature leads to a new superconducting zone with unique electronic structures and strong orbital-selective electronic correlation. [Phys. Rev. B 98, 214508] Published Wed Dec 12, 2018 R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen American Physical Society (APS) 1098-0121 10980121 1095-3795 10953795
shingle_catch_all_4	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone Superfluidity and superconductivity Author(s): R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen Iron selenide superconductors exhibit unique characteristics distinct from iron pnictides, especially in the electron-doped region. Here, the authors report the synthesis of a new family of Li x (C 3 N 2 H 10 ) 0 . 37 FeSe materials, which features a continuous superconducting dome harboring a Lifshitz transition within the wide range of 0.06 ≤ x ≤ 0.68. Under electron doping, the anion height of FeSe layers deviates linearly away from the optimized values of pnictides. This feature leads to a new superconducting zone with unique electronic structures and strong orbital-selective electronic correlation. [Phys. Rev. B 98, 214508] Published Wed Dec 12, 2018 R. J. Sun, Y. Quan, S. F. Jin, Q. Z. Huang, H. Wu, L. Zhao, L. Gu, Z. P. Yin, and X. L. Chen American Physical Society (APS) 1098-0121 10980121 1095-3795 10953795
shingle_title_1	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
shingle_title_2	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
shingle_title_3	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
shingle_title_4	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
timestamp	2025-06-30T23:37:39.234Z
titel	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
titel_suche	Realization of continuous electron doping in bulk iron selenides and identification of a new superconducting zone
topic	U
uid	ipn_articles_6368943