Paper Title
Scalable Biexcitons in h-BN/Monolayer MoSe2 Quantum Dots for Quantum Entanglement and Computation
Abstract
This paper presents numerical calculations of biexciton parameters in h-BN/ monolayer MoSe2 quantum dots for
use in photonic quantum computation. Polarization-entangled photons can be generated from biexcition states for two-qubit
entanglement needed for many quantum computation frameworks. Biexciton binding energies are calculated along with
photon energies in entangled states. Decoherence parameters are calculated for evaluation of fidelity measures for quantum
computation. The advantages of using quantum dots made from intrinsic 2D materials are delineated from a quantum
computation implementation perspective.
Keywords - Quantum Dots, Biexcitons, Quantum Entanglement, Two-Dimensional Semiconductors, MoSe2, h-BN