Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2

Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2

10.1038/ncomms10639

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Main Authors: Chang, T.-R, Xu, S.-Y, Chang, G, Lee, C.-C, Huang, S.-M, Wang, B, Bian, G, Zheng, H, Sanchez, D.S, Belopolski, I, Alidoust, N, Neupane, M, Bansil, A, Jeng, H.-T, Lin, H, Zahid Hasan, M
Other Authors: CENTRE FOR ADVANCED 2D MATERIALS
Format: Article
Published: Nature Publishing Group 2020
Subjects:
boundary
critical state
fundamental particle
physics
superconductivity
topology
fermion
prediction
Online Access:https://scholarbank.nus.edu.sg/handle/10635/175428
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1754282024-11-13T17:12:08Z Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2 Chang, T.-R Xu, S.-Y Chang, G Lee, C.-C Huang, S.-M Wang, B Bian, G Zheng, H Sanchez, D.S Belopolski, I Alidoust, N Neupane, M Bansil, A Jeng, H.-T Lin, H Zahid Hasan, M CENTRE FOR ADVANCED 2D MATERIALS DEPT OF PHYSICS boundary critical state fundamental particle physics superconductivity topology fermion physics prediction 10.1038/ncomms10639 Nature Communications 7 10639 2020-09-10T01:38:14Z 2020-09-10T01:38:14Z 2016 Article Chang, T.-R, Xu, S.-Y, Chang, G, Lee, C.-C, Huang, S.-M, Wang, B, Bian, G, Zheng, H, Sanchez, D.S, Belopolski, I, Alidoust, N, Neupane, M, Bansil, A, Jeng, H.-T, Lin, H, Zahid Hasan, M (2016). Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2. Nature Communications 7 : 10639. ScholarBank@NUS Repository. https://doi.org/10.1038/ncomms10639 20411723 https://scholarbank.nus.edu.sg/handle/10635/175428 Nature Publishing Group Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic boundary
critical state
fundamental particle
physics
superconductivity
topology
fermion
physics
prediction
spellingShingle boundary
critical state
fundamental particle
physics
superconductivity
topology
fermion
physics
prediction
Chang, T.-R
Xu, S.-Y
Chang, G
Lee, C.-C
Huang, S.-M
Wang, B
Bian, G
Zheng, H
Sanchez, D.S
Belopolski, I
Alidoust, N
Neupane, M
Bansil, A
Jeng, H.-T
Lin, H
Zahid Hasan, M
Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
description 10.1038/ncomms10639
author2 CENTRE FOR ADVANCED 2D MATERIALS
author_facet CENTRE FOR ADVANCED 2D MATERIALS
Chang, T.-R
Xu, S.-Y
Chang, G
Lee, C.-C
Huang, S.-M
Wang, B
Bian, G
Zheng, H
Sanchez, D.S
Belopolski, I
Alidoust, N
Neupane, M
Bansil, A
Jeng, H.-T
Lin, H
Zahid Hasan, M
format Article
author Chang, T.-R
Xu, S.-Y
Chang, G
Lee, C.-C
Huang, S.-M
Wang, B
Bian, G
Zheng, H
Sanchez, D.S
Belopolski, I
Alidoust, N
Neupane, M
Bansil, A
Jeng, H.-T
Lin, H
Zahid Hasan, M
author_sort Chang, T.-R
title Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
title_short Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
title_full Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
title_fullStr Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
title_full_unstemmed Prediction of an arc-tunable Weyl Fermion metallic state in MoxW1-xTe2
title_sort prediction of an arc-tunable weyl fermion metallic state in moxw1-xte2
publisher Nature Publishing Group
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/175428
_version_ 1821208072854437888

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