Photon Number Coherence in Quantum Dot-Cavity Systems can be Enhanced by Phonons

TL;DR

This paper investigates how phonons influence photon number coherence in quantum dot-cavity systems, revealing that phonons can unexpectedly enhance coherence, which is crucial for secure quantum communication.

Contribution

It demonstrates that phonons can improve photon number coherence in quantum dot-cavity systems, challenging the assumption that phonons only degrade quantum coherence.

Findings

Phonons can increase photon number coherence in quantum dot-cavity systems.

Electron-phonon interactions can be harnessed to enhance quantum coherence.

The study provides insights into optimizing quantum dot sources for quantum communication.

Abstract

Semiconductor quantum dots are a versatile source of single photons with tunable properties to be used in quantum-cryptographic applications. A crucial figure of merit of the emitted photons is photon number coherence (PNC), which impacts the security of many quantum communication protocols. In the process of single-photon generation, the quantum dot as a solid-state object is subject to an interaction with phonons, which can therefore indirectly affect the PNC. In this paper, we elaborate on the origin of PNC in optically excited quantum dots and how it is affected by phonons. In contrast to the expectation that phonons always deteriorate coherence, PNC can be increased in a quantum dot-cavity system due to the electron-phonon interaction.