Open AccessCorrelated oxide Dirac semimetal in the extreme quantum limit
Author(s) -
Jong Mok Ok,
Narayan Mohanta,
Jie Zhang,
Sangmoon Yoon,
Satoshi Okamoto,
Eun Sang Choi,
Hua Zhou,
Megan Briggeman,
Patrick Irvin,
Andrew R. Lupini,
YunYi Pai,
Elizabeth Skoropata,
Changhee Sohn,
Haoxiang Li,
H. Miao,
Benjamin J. Lawrie,
Woo Seok Choi,
Gyula Eres,
Jeremy Levy,
Ho Nyung Lee
Publication year - 2021
Publication title -
science advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.928
H-Index - 146
ISSN - 2375-2548
DOI - 10.1126/sciadv.abf9631
Subject(s) - semimetal , dirac (video compression format) , physics , electron , realization (probability) , topology (electrical circuits) , condensed matter physics , symmetry (geometry) , dirac fermion , electronic band structure , limit (mathematics) , quantum limit , topological insulator , band gap , quantum , graphene , quantum mechanics , mathematics , statistics , geometry , combinatorics , neutrino , mathematical analysis
Signatures of strong correlation of Dirac electrons are discovered in an oxide-based correlated topological quantum material.
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