Related papers: Effects of cavity-mediated processes on the polarization entanglement of photon pairs emitted from quantum dots

Effects of cavity-mediated processes on the polarization entanglement of photon pairs emitted from quantum dots

URL: http://arxiv.org/abs/2312.12054v2
Date: Mon, 25 Dec 2023 06:34:10 GMT
Title: Effects of cavity-mediated processes on the polarization entanglement of photon pairs emitted from quantum dots
Authors: Mukesh Kumar Samal, Divya Mishra and Parvendra Kumar
Abstract summary: We investigate the generation of polarisation-entangled photon pairs under two-photon excitation and cavity-assisted two-photon emission. In a strong coupling regime, cavity introduces the unequal ac-Stark shift of horizontally and vertically polarised exciton states, which results in the effective splitting of exciton states. Secondly, it induces the cross-coupling between the exciton states even in the weak coupling regime, causing the creation of unfavorable two-photon states.
Score: 1.1510009152620668
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Semiconductor quantum dots are among the best sources of on-demand entangled photon pairs. The degree of entanglement, however, is generally limited by the fine structure splitting of exciton states. In this paper, we theoretically investigate the generation of polarisation-entangled photon pairs under two-photon excitation and cavity-assisted two-photon emission, both in the weak and strong cavity coupling regimes. We demonstrate and clarify that cavity coupling together with an excitation pulse reduces the degree of entanglement in three different ways. Firstly, in a strong coupling regime, cavity introduces the unequal ac-Stark shift of horizontally and vertically polarised exciton states, which results in the effective splitting of exciton states. Secondly, it induces the cross-coupling between the exciton states even in the weak coupling regime, causing the creation of unfavorable two-photon states. Finally, higher excited states of the cavity modes also contribute to the reduction of entanglement. Therefore, in the setting considered here, cavity coupling, which is generally required for the efficient collection of emitted photons, degrades the entanglement both in weak and strong coupling regimes.

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