Bursts of polarised single photons from atom-cavity sources

Journal of Physics B Pub Date : 2023-09-25 DOI:10.1088/1361-6455/acf9d2

Jan Ole Ernst, Juan-Rafael Alvarez, Thomas D Barrett, Axel Kuhn

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Abstract

Abstract Photonic qubits play an instrumental role in the development of advanced quantum technologies, including quantum networking, boson sampling and measurement based quantum computing. A promising framework for the deterministic production of indistinguishable single photons is an atomic emitter coupled to a single mode of a high finesse optical cavity. Polarisation control is an important cornerstone, particularly when the polarisation defines the state of a quantum bit. Here, we propose a scheme for producing bursts of polarised single photons by coupling a generalised atomic emitter to an optical cavity, exploiting a particular choice of quantisation axis. In connection with two re-preparation methods, simulations predict ten-photon bursts coincidence count rates on the order of 1 kHz with single 87 R b atoms trapped in a state of the art optical cavity. This paves the way for novel n -photon experiments with atom-cavity sources.

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来自原子腔源的偏振单光子爆发

光子量子比特在量子网络、玻色子采样和基于测量的量子计算等先进量子技术的发展中发挥着重要作用。一个有前途的框架，以确定性生产不可区分的单光子是一个原子发射器耦合到一个高精细光学腔的单模。偏振控制是一个重要的基石，特别是当偏振定义量子比特的状态时。在这里，我们提出了一种方案，通过将广义原子发射器耦合到光学腔，利用特定的量子化轴来产生偏振单光子的爆发。结合两种重新制备方法，模拟预测了在现有光学腔中捕获单个87rb原子的10光子爆发的符合计数率为1khz。这为原子腔源的新型n光子实验铺平了道路。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Physics B

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