Robust and bright polarization-entangled photon sources exploiting non-critical phase matching without periodic poling

Ilhwan Kim, Yosep Kim, Yong-Su Kim, Kwang Jo Lee, Hyang-Tag Lim
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Abstract

Entangled photon sources are essential for quantum information applications, including quantum computation, quantum communication, and quantum metrology. Periodically poled (PP) crystals are commonly used to generate bright photon sources through quasi-phase matching. However, fabricating uniform micron-scale periodic structures poses significant technical difficulties, typically limiting the crystal thickness to less than a millimeter. Here, we adopt non-critical phase matching to produce a robust and bright polarization-entangled photon source based on a Sagnac interferometer. This method is tolerant of variations in pump incidence angles and temperature, and theoretically offers about a 2.5-fold brightness enhancement compared to quasi-phase matching. Additionally, the absence of periodic poling allows for a larger crystal cross-section. Using a bulk KTP crystal without a PP structure, we experimentally produce the four Bell states with a brightness of 25.1 kHz/mW, achieving purity, concurrence, and fidelity values close to 0.99. We believe our scheme will serve as a key building block for scalable and practical photonic quantum information applications.
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无需周期性极化即可利用非临界相位匹配的稳健而明亮的偏振纠缠光子源
纠缠光子源对于量子信息应用(包括量子计算、量子通信和量子计量学)来说至关重要。然而,制造均匀的微米级周期结构存在很大的技术难度,通常会将晶体厚度限制在一毫米以下。在这里,我们采用非临界相位匹配技术,在萨格纳克干涉仪的基础上制造出一种坚固而明亮的偏振纠缠光子源。这种方法能够承受泵浦入射角和温度的变化,理论上与类相位匹配相比,亮度可提高约 2.5 倍。此外,由于没有周期性极化,因此晶体横截面更大。通过使用无聚丙烯结构的块状 KTP 晶体,我们在实验中产生了亮度为 25.1kHz/mW 的四种贝尔态,纯度、一致性和保真度接近 0.99。我们相信,我们的方案将成为可扩展的实用光子量子信息应用的关键构件。
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