Title
Fractional corner charges in spin-orbit coupled crystalsAuthor
Other institutions
https://ror.org/041kmwe10https://ror.org/018zpxs61
https://ror.org/000xsnr85
https://ror.org/02yt0vw44
Version
Published versionDocument type
Journal ArticleLanguage
EnglishRights
© The Author(s)Access
Open accessPublisher’s version
https://doi.org/10.1103/PhysRevResearch.1.033074Published at
Physical Review Research 2019 Vol. 1. N. art. 033074Publisher
American Physical SocietySubject (UNESCO Thesaurus)
http://vocabularies.unesco.org/thesaurus/concept17168Abstract
We study two-dimensional spinful insulating phases of matter that are protected by time-reversal and crystalline symmetries. To characterize these phases, we employ the concept of corner charge fracti ... [+]
We study two-dimensional spinful insulating phases of matter that are protected by time-reversal and crystalline symmetries. To characterize these phases, we employ the concept of corner charge fractionalization: corners can carry charges that are fractions of even multiples of the electric charge. The charges are quantized and topologically stable as long as all symmetries are preserved. We classify the different corner charge configurations for all point groups, and match them with the corresponding bulk topology. For this we employ symmetry indicators and (nested) Wilson loop invariants. We provide formulas that allow for a convenient calculation of the corner charge from Bloch wave functions and illustrate our results using the example of arsenic and antimony monolayers. Depending on the degree of structural buckling, these materials can exhibit two distinct obstructed atomic limits. We present density functional theory calculations for open flakes to support our findings. [-]
Funder
Comisión EuropeaGobierno Español
Program
H2020Number
757867IS2016-75862
Project
Research and innovation program (Grant No. ERC-StG-Neupert-757867-PARATOP)Ministry of Economy and Competitiveness (MINECO)
Collections
- Articles - Engineering [930]
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