Add to ORKGWe used angle-resolved photoemission spectroscopy (ARPES) to map out the band structure of single-layer WSe2. The splitting of the top of the valence band because of spin-orbit coupling is 513±10meV, in general agreement with theoretical predictions and in the same range as that of bulk WSe2. Overall, our density functional theory (DFT) calculations of the band structure are in excellent agreement with the ARPES results. We have verified that the few discrepancies between theory and experiment are not due to the effect of strain. The differences between the DFT-calculated band structure using local density approximation (LDA) and that using the generalized gradient approximation (GGA), for single-layer WSe2, are caused mainly by differences...
A possible connection between extremely large magnetoresistance and the presence of Weyl points has ...
Layered transition metal chalcogenides with large spin orbit coupling have recently sparked much int...
18The electron–phonon coupling strength in the spin–split valence band maximum of single-layer MoS2 ...
We used angle-resolved photoemission spectroscopy (ARPES) to map out the band structure of single-la...
The orbital symmetry of the band structure of 2H-WSe2(0 0 0 1) has been investigated by means of ang...
Yu SW, Lischke T, David R, et al. Spin resolved photoemission spectroscopy on WSe2. JOURNAL OF ELECT...
We report on a complete determination of the experimental and theoretical valence- and conduction-ba...
Electronic band structures of single-crystal and single-layer WS2 are investigated by first-principl...
The valence band structure of the layered transition metal dichalcogenide WS₂ has been determined ex...
International audienceNearly localized moiréflat bands in momentum space, arising at particular twis...
Electronic band structures of single-crystal and single-layer WS₂ are investigated by first-principl...
Growth by chemical vapor deposition (CVD) leads to multilayer WS2 of very high quality, based on hig...
Growth by chemical vapor deposition (CVD) leads to multilayer WS2 of very high quality, based on hig...
The strain in hybrid van der Waals heterostructures, made of two distinct two-dimensional van der Wa...
A possible connection between extremely large magnetoresistance and the presence of Weyl points has ...
Layered transition metal chalcogenides with large spin orbit coupling have recently sparked much int...
18The electron–phonon coupling strength in the spin–split valence band maximum of single-layer MoS2 ...
We used angle-resolved photoemission spectroscopy (ARPES) to map out the band structure of single-la...
The orbital symmetry of the band structure of 2H-WSe2(0 0 0 1) has been investigated by means of ang...
Yu SW, Lischke T, David R, et al. Spin resolved photoemission spectroscopy on WSe2. JOURNAL OF ELECT...
We report on a complete determination of the experimental and theoretical valence- and conduction-ba...
Electronic band structures of single-crystal and single-layer WS2 are investigated by first-principl...
The valence band structure of the layered transition metal dichalcogenide WS₂ has been determined ex...
International audienceNearly localized moiréflat bands in momentum space, arising at particular twis...
Electronic band structures of single-crystal and single-layer WS₂ are investigated by first-principl...
Growth by chemical vapor deposition (CVD) leads to multilayer WS2 of very high quality, based on hig...
Growth by chemical vapor deposition (CVD) leads to multilayer WS2 of very high quality, based on hig...
The strain in hybrid van der Waals heterostructures, made of two distinct two-dimensional van der Wa...
A possible connection between extremely large magnetoresistance and the presence of Weyl points has ...
Layered transition metal chalcogenides with large spin orbit coupling have recently sparked much int...
18The electron–phonon coupling strength in the spin–split valence band maximum of single-layer MoS2 ...