Non-Hermitian Control of Tri-Photon and Quad-Photon Using Parallel Multi-Dressing Quantization

Non-Hermitian Control of Tri-Photon and Quad-Photon Using Parallel Multi-Dressing Quantization

The fifth-order nonlinear polarizability has been extensively studied in the field of quantum communication due to its ease of manipulation. By adjusting the relative size of the Rabi frequency and dephasing rate of the dressing field, natural non-Hermitian exceptional points can be generated, and f...

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Bibliographic Details
Main Authors: Haitian Tang, Rui Zhuang, Jiaxuan Wei, Qingyu Chen, Sinong Liu, Guobin Liu, Zhou Feng, Yanpeng Zhang
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Photonics
Subjects:
nonlinear optics
coherent channel
spontaneous multi-wave mixing
Online Access:https://www.mdpi.com/2304-6732/12/7/653
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Summary:The fifth-order nonlinear polarizability has been extensively studied in the field of quantum communication due to its ease of manipulation. By adjusting the relative size of the Rabi frequency and dephasing rate of the dressing field, natural non-Hermitian exceptional points can be generated, and further evolution can be achieved by varying the types of dressing fields. However, as the demand for information capacity in quantum communication continues to increase, research on the higher-order seventh-order nonlinear polarizability, based on four-photon states, and the number of coherent channels and resonance positions has gradually come to the forefront. This paper focuses on the simultaneous generation of a seventh-order nonlinear polarizability through a spontaneous eight-wave mixing (SEWM) process in an atomic medium involving four photons. Compared to the fifth-order nonlinear polarizability, the seventh-order polarizability shows an exponential increase in coherent channels and resonance positions due to its strong dressing effect. Additionally, the interaction between the four photons is stronger than that between three photons, making it possible for even the difficult-to-dress eigenvalues to be influenced by the dressing field and dephasing rate, resulting in more complex coherent channels. These are manifested as more complex, damped Rabi oscillations, with periods that can be controlled by the dressing field. These findings may contribute to a promising new method for quantum communication.
ISSN:2304-6732

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