We study the electronic properties of a van der Waals (vdW) heterostructure made of SnSe2 and WSe2 by abinitio methods in order to simulate an Esaki diode built with these materials. We use Density Functional Theory (DFT) to parametrize a k · p model in order to achieve the transport calculations. Furthermore we introduce a tunneling coefficient parametrized by DFT. This coefficient depends on the electric field in the device in order to precisely describe the quantum tunneling happening in the heterostructure. This model Hamiltonian is then used to compute current-voltage characteristics for our Esaki diode via Non-Equilibrium Green's Functions (NEGF) calculations.
Multi-Band Model Hamiltonian for Tunnel Devices with Van Der Waals Heterojunctions
Pala, Marco;
2025-01-01
Abstract
We study the electronic properties of a van der Waals (vdW) heterostructure made of SnSe2 and WSe2 by abinitio methods in order to simulate an Esaki diode built with these materials. We use Density Functional Theory (DFT) to parametrize a k · p model in order to achieve the transport calculations. Furthermore we introduce a tunneling coefficient parametrized by DFT. This coefficient depends on the electric field in the device in order to precisely describe the quantum tunneling happening in the heterostructure. This model Hamiltonian is then used to compute current-voltage characteristics for our Esaki diode via Non-Equilibrium Green's Functions (NEGF) calculations.| File | Dimensione | Formato | |
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Multi-Band_Model_Hamiltonian_for_Tunnel_Devices_with_Van_Der_Waals_Heterojunctions.pdf
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