Coulomb drag in metal monochalcogenides double-layer structures with Mexican-hat band dispersions
Autor: | Sasan Rostami, T. Vazifehshenas, T. Salavati-fard |
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Rok vydání: | 2021 |
Předmět: |
Valence (chemistry)
Materials science Condensed Matter - Mesoscale and Nanoscale Physics Condensed matter physics Scattering Doping FOS: Physical sciences Condensed Matter Physics Electrical resistivity and conductivity Drag Mesoscale and Nanoscale Physics (cond-mat.mes-hall) Coulomb General Materials Science Electronic band structure Plasmon |
Zdroj: | Journal of Physics: Condensed Matter. |
ISSN: | 1361-648X 0953-8984 |
DOI: | 10.1088/1361-648x/abeebc |
Popis: | We theoretically study the Coulomb drag resistivity and plasmon modes behavior for a system composed of two parallel p-type doped GaS monolayers with Mexican-hat valence energy band using the Boltzmann transport theory formalism. We investigate the effect of temperature,$\ T$, carrier density,$\ p$, and layer separation,$\ d$, on the plasmon modes and drag resistivity within the energy-independent scattering time approximation. Our results show that the density dependence of plasmon modes can be approximated by$\ p^{0.5}$. Also, the calculations suggest a$\ d^{0.2}$ and a$\ d^{0.1}$ dependencies for the acoustic and optical plasmon energies, respectively. Interestingly, we obtain that the behavior of drag resistivity in the double-layer metal monochalcogenides swings between the behavior of a double-quantum well system with parabolic dispersion and that of a double-quantum wire structure with a large carrier density of states. In particular, the transresistivity value reduces exponentially with increasing the distance between layers. Furthermore, the drag resistivity changes as$\ T^{2}/p^{4}$ ($\ T^{2.8}/p^{4.5}$) at low (intermediate) temperatures. Finally, we compare the drag resistivity as a function of temperature for GaS with other Mexican-hat materials including GaSe and InSe and find that it adopts higher values when the metal monochalcogenide has smaller Mexican-hat height. Comment: 9 pages, 12 figures |
Databáze: | OpenAIRE |
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