Self-compensation in phosphorus-doped CdTe
Abstract
We investigate the self-compensation mechanism in phosphorus-doped CdTe. The formation energies, charge transition levels, and defects states of several P-related point defects susceptible to cause self-compensation are addressed by first-principles calculations. Moreover, we assess the in uence of the spin-orbit coupling and supercell-size effects on the stability of AX centers donors, which are believed to be responsible for most of the self-compensation. We report an improved result for the lowest-energy configuration of the P interstitial (P) and find that the self-compensation mechanism is not due to the formation of AX centers. Under Te-rich growth conditions, (P) exhibits a formation energy lower than the substitutional acceptor (P) when the Fermi level is near the valence band, acting as compensating donor. While, for Cd-rich growth conditions, our results suggest that p-type doping is limited by the formation of (P-V) complexes.
Cite
@article{arxiv.1708.01847,
title = {Self-compensation in phosphorus-doped CdTe},
author = {Mauricio A. Flores and Walter Orellana and Eduardo Menéndez-Proupin},
journal= {arXiv preprint arXiv:1708.01847},
year = {2017}
}
Comments
5 pages