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Main Authors: Gao, Zhao-Min, Li, Jia-Qi, Wu, Ying-Huan, Liu, Wen-Xiao, Wang, Xin
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2406.12414
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author Gao, Zhao-Min
Li, Jia-Qi
Wu, Ying-Huan
Liu, Wen-Xiao
Wang, Xin
author_facet Gao, Zhao-Min
Li, Jia-Qi
Wu, Ying-Huan
Liu, Wen-Xiao
Wang, Xin
contents The realization of correlated multi-photon processes usually depends on the interaction between nonlinear media and atoms. However, the nonlinearity of optical materials is generally weak, making it still very challenging to achieve correlated multi-photon dynamics at the few-photon level. Meanwhile, giant atoms, with their capability for multi-point coupling, which is a novel paradigm in quantum optics, mostly focus on the single photon field. In this work, using the method described in Phys. Rev. Res. 6. 013279 (2024), we reveal that the ladder-type three-level giant atom spontaneously emits strongly correlated photon pairs with high efficiency by designing and optimizing the target function. In addition, by encoding local phases into the optimal coupling sequence, directional two-photon correlated transfer can be achieved. This method does not require a nonlinear waveguide and can be realized in the conventional environment. We show that the photon pairs emitted in both the bidirectional and the chiral case exhibit strong correlation properties in both time and space. Such correlated photon pairs have great potential applications for quantum information processing. For example, numerical results show that our proposal can realize the two-photon mediated cascaded quantum system.
format Preprint
id arxiv_https___arxiv_org_abs_2406_12414
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Harnessing spontaneous emission of correlated photon pairs from ladder-type giant atoms
Gao, Zhao-Min
Li, Jia-Qi
Wu, Ying-Huan
Liu, Wen-Xiao
Wang, Xin
Quantum Physics
The realization of correlated multi-photon processes usually depends on the interaction between nonlinear media and atoms. However, the nonlinearity of optical materials is generally weak, making it still very challenging to achieve correlated multi-photon dynamics at the few-photon level. Meanwhile, giant atoms, with their capability for multi-point coupling, which is a novel paradigm in quantum optics, mostly focus on the single photon field. In this work, using the method described in Phys. Rev. Res. 6. 013279 (2024), we reveal that the ladder-type three-level giant atom spontaneously emits strongly correlated photon pairs with high efficiency by designing and optimizing the target function. In addition, by encoding local phases into the optimal coupling sequence, directional two-photon correlated transfer can be achieved. This method does not require a nonlinear waveguide and can be realized in the conventional environment. We show that the photon pairs emitted in both the bidirectional and the chiral case exhibit strong correlation properties in both time and space. Such correlated photon pairs have great potential applications for quantum information processing. For example, numerical results show that our proposal can realize the two-photon mediated cascaded quantum system.
title Harnessing spontaneous emission of correlated photon pairs from ladder-type giant atoms
topic Quantum Physics
url https://arxiv.org/abs/2406.12414