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Modeling and Simulation of Electrostatics of Ge1-xSnx Layers Grown on Ge Substrates

Gangwal, Siddhant; Lu, Tzu M.; Vasileska, Dragica

This work introduces a comprehensive simulation tool that provides a robust 1D Schrödinger - Poisson solver for modeling the electrostatics of heterostructures with an arbitrary number of layers, and non-uniform doping profiles along with the treatment of partial ionization of dopants at low temperatures. The effective masses are derived from the first-principles calculations. The solver is used to characterize three Ge1-xSnx/Ge heterostructures with non-uniform doping profiles and determine the subband structure at various temperatures. The simulation results of the sheet carrier densities show excellent agreement with the experimentally extracted data, thus demonstrating the capabilities of the solver.

SAND2024-13266J

IEEE Journal of Selected Topics in Quantum Electronics
Volume 31, Issue 1

January 1, 2025

IEEE Lasers and Electro-optics Society (United States)

Sandia National Laboratories, New Mexico

Ira A. Fulton Schools of Engineering

School of Engineering and Applied Science

1558-4542, 1077-260X

10.1109/jstqe.2024.3456590

Engineering

Ge $_{\text{1-x}}$ Sn $_{\text{x}}$ /Ge heterostructures

Schrodinger - Poisson solver

Density functional theory

Low-temperature simulation

Partial ionization of dopants

Quantum confinement