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dc.contributor.authorZhou, W.en
dc.contributor.authorRudenko, A. N.en
dc.contributor.authorYuan, S.en
dc.date.accessioned2020-09-29T09:46:04Z-
dc.date.available2020-09-29T09:46:04Z-
dc.date.issued2020-
dc.identifier.citationZhou, W. Effect of Mechanical Strain on the Optical Properties of Nodal-Line Semimetal ZrSiS / W. Zhou, A. N. Rudenko, S. Yuan. — DOI 10.1002/aelm.201900860 // Advanced Electronic Materials. — 2020. — Vol. 1. — Iss. 6. — 1900860.en
dc.identifier.issn2199-160X-
dc.identifier.otherhttps://onlinelibrary.wiley.com/doi/pdfdirect/10.1002/aelm.201900860pdf
dc.identifier.other1good_DOI
dc.identifier.other4ba65a68-bedc-4571-ac13-8f91c25e068dpure_uuid
dc.identifier.otherhttp://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=85075149099m
dc.identifier.urihttp://elar.urfu.ru/handle/10995/90118-
dc.description.abstractOptical properties of nodal-line semimetal ZrSiS are studied using first-principles calculations. Frequency-independent optical conductivity is a fingerprint of the infrared optical response in ZrSiS. It is found that this characteristic feature is robust with respect to uniaxial compressive strain of up to 10 GPa, yet with the flat region being narrowed with increasing strain. Upon uniaxial tensile stress of 2 GPa, the Fermi surface undergoes a Lifshitz transition accompanied by a weakening of the interband screening, which reduces the spectral weight of infrared excitations. It is also shown that the high-energy region is characterized by low-loss plasma excitations at ≈20 eV with essentially anisotropic dispersion. Strongly anisotropic dielectric properties suggest the existence of a hyperbolic regime for plasmons in the deep ultraviolet range. Although the frequencies of high-energy plasmons are virtually unaffected by external uniaxial deformation, their dispersion can be effectively tuned by strain. © 2019 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheimen
dc.description.sponsorshipNational Natural Science Foundation of China, NSFC: 11774269en
dc.description.sponsorship2018FYA0305800en
dc.description.sponsorshipS.Y. acknowledges financial support from the National Key R & D Program of China (Grant No. 2018FYA0305800) and National Science Foundation of China (Grant No. 11774269). A.N.R. acknowledges travel support from FLAG-ERA JTC2017 Project GRANSPORT. Numerical calculations presented in this paper were performed on a supercomputing system in the Supercomputing Center of Wuhan University.en
dc.format.mimetypeapplication/pdfen
dc.language.isoenen
dc.publisherBlackwell Publishing Ltden
dc.rightsinfo:eu-repo/semantics/openAccessen
dc.sourceAdvanced Electronic Materialsen
dc.subjectFIRST-PRINCIPLES CALCULATIONSen
dc.subjectNODAL-LINE SEMIMETALSen
dc.subjectOPTICAL PROPERTIESen
dc.subjectPLASMA EXCITATIONen
dc.subjectSTRAIN EFFECTSen
dc.subjectANISOTROPYen
dc.subjectCALCULATIONSen
dc.subjectDIELECTRIC PROPERTIESen
dc.subjectDISPERSIONSen
dc.subjectOPTICAL CONDUCTIVITYen
dc.subjectOPTICAL PROPERTIESen
dc.subjectPLASMONSen
dc.subjectSILICON COMPOUNDSen
dc.subjectZIRCONIUM COMPOUNDSen
dc.subjectANISOTROPIC DIELECTRICSen
dc.subjectANISOTROPIC DISPERSIONen
dc.subjectFIRST-PRINCIPLES CALCULATIONen
dc.subjectFREQUENCY INDEPENDENTen
dc.subjectNODAL LINEen
dc.subjectPLASMA EXCITATIONen
dc.subjectSTRAIN EFFECTen
dc.subjectUNIAXIAL DEFORMATIONen
dc.subjectSULFUR COMPOUNDSen
dc.titleEffect of Mechanical Strain on the Optical Properties of Nodal-Line Semimetal ZrSiSen
dc.typeArticleen
dc.typeinfo:eu-repo/semantics/articleen
dc.typeinfo:eu-repo/semantics/publishedVersionen
dc.identifier.doi10.1002/aelm.201900860-
dc.identifier.scopus85075149099-
local.affiliationKey Laboratory of Artificial Micro- and Nano-Structures of Ministry of Education and School of Physics and Technology, Wuhan University, Wuhan, 430072, Chinaen
local.affiliationInstitute for Molecules and Materials, Radboud University, Heijendaalseweg 135, Nijmegen, NL-6525 AJ, Netherlandsen
local.affiliationTheoretical Physics and Applied Mathematics Department, Ural Federal University, Ekaterinburg, 620002, Russian Federationen
local.contributor.employeeZhou, W., Key Laboratory of Artificial Micro- and Nano-Structures of Ministry of Education and School of Physics and Technology, Wuhan University, Wuhan, 430072, Chinaru
local.contributor.employeeRudenko, A.N., Key Laboratory of Artificial Micro- and Nano-Structures of Ministry of Education and School of Physics and Technology, Wuhan University, Wuhan, 430072, China, Institute for Molecules and Materials, Radboud University, Heijendaalseweg 135, Nijmegen, NL-6525 AJ, Netherlands, Theoretical Physics and Applied Mathematics Department, Ural Federal University, Ekaterinburg, 620002, Russian Federationru
local.contributor.employeeYuan, S., Key Laboratory of Artificial Micro- and Nano-Structures of Ministry of Education and School of Physics and Technology, Wuhan University, Wuhan, 430072, Chinaru
local.issue6-
local.volume1-
dc.identifier.wos000496862300001-
local.identifier.pure11900382-
local.description.order1900860-
local.identifier.eid2-s2.0-85075149099-
local.identifier.wosWOS:000496862300001-
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