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

arXiv - PHYS - Mesoscale and Nanoscale Physics Pub Date : 2024-09-13 DOI:arxiv-2409.08643
Paul C. A. Hagen, Mathieu Bozzio, Moritz Cygorek, Doris E. Reiter, Vollrath M. Axt
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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.
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量子点-腔系统中的光子数相干可由声子增强
半导体量子点是一种用途广泛的单光子源,具有可用于量子密码应用的可调特性。发射光子的一个重要优点是光子数相干性(PNC),它影响着许多量子通信协议的安全性。在单光子产生过程中,量子点作为固态物体会与声子发生相互作用,因此会间接影响 PNC。本文阐述了光激发量子点中 PNC 的起源以及它如何受到声子的影响。与声子总是会降低相干性的预期相反,在量子点-空穴系统中,由于电子-声子的相互作用,PNC 可以增加。
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arXiv - PHYS - Mesoscale and Nanoscale Physics
arXiv - PHYS - Mesoscale and Nanoscale Physics
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