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arxiv: 1910.01882 · v1 · pith:TV6XJ2NJnew · submitted 2019-10-04 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Layer and orbital interference effects in photoemission from transition metal dichalcogenides

classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall
keywords photoemissionintensityinterferenceangle-resolveddichalcogenideseffectfindleads
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In this work, we provide an effective model to evaluate the one-electron dipole matrix elements governing optical excitations and the photoemission process of single-layer (SL) and bilayer (BL) transition metal dichalcogenides. By utilizing a $\vec{k} \cdot \vec{p}$ Hamiltonian, we calculate the photoemission intensity as observed in angle-resolved photoemission from the valence bands around the $\bar{K}$-valley of MoS$_2$. In SL MoS$_2$ we find a significant masking of intensity outside the first Brillouin zone, which originates from an in-plane interference effect between photoelectrons emitted from the Mo $d$ orbitals. In BL MoS$_2$ an additional inter-layer interference effect leads to a distinctive modulation of intensity with photon energy. Finally, we use the semiconductor Bloch equations to model the optical excitation in a time- and angle-resolved pump-probe photoemission experiment. We find that the momentum dependence of an optically excited population in the conduction band leads to an observable dichroism in both SL and BL MoS$_2$.

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