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Main Authors: Hu, Zhijia, He, Shilong, Qi, Lianghao, Li, Yalan, Li, Siqi, Chen, Bin, Du, Wenyu, Kuai, Yan, Cao, Zhigang, Wang, Min, Zhou, Kaiming, Zhang, Lin, Guo, Qingchuan, Ding, Weimin, Li, Chao, Xie, Kang, Gomes, Anderson S. L., Yu, Benli
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.04908
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author Hu, Zhijia
He, Shilong
Qi, Lianghao
Li, Yalan
Li, Siqi
Chen, Bin
Du, Wenyu
Kuai, Yan
Cao, Zhigang
Wang, Min
Zhou, Kaiming
Zhang, Lin
Guo, Qingchuan
Ding, Weimin
Li, Chao
Xie, Kang
Gomes, Anderson S. L.
Yu, Benli
author_facet Hu, Zhijia
He, Shilong
Qi, Lianghao
Li, Yalan
Li, Siqi
Chen, Bin
Du, Wenyu
Kuai, Yan
Cao, Zhigang
Wang, Min
Zhou, Kaiming
Zhang, Lin
Guo, Qingchuan
Ding, Weimin
Li, Chao
Xie, Kang
Gomes, Anderson S. L.
Yu, Benli
contents In secure communication, highly random entropy sources are essential for information security. Random lasers (RLs), which arise from multiple scattering in disordered structures, are potentially ideal entropy sources. Traditionally, RLs are viewed as disordered and unpredictable. However, in this work, we present novel evidence that orderly patterns exist beneath the seemingly disordered outputs of RLs. Utilizing deep learning techniques, a variety of advanced neural network models are used to analyze the spectral data in multiple dimensions. The results show that the time series of RLs spectra are unpredictable, but spectral wavelength component intensities can be recovered due to inter-modal correlations. This finding not only breaks through the traditional perception that RLs are unpredictable, but also reveals for the first time that RLs have the dual characteristics of both randomness and determinism. Based on this new characteristic, we further expand the application field of RLs and innovatively design a new type of key generation and distribution scheme. In this scheme, the disordered property of RLs is used for key generation to ensure high randomness, while their ordered property is used for key distribution to guarantee accuracy and reliability. The scheme provides a new strategy for secure communication.
format Preprint
id arxiv_https___arxiv_org_abs_2505_04908
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Order within disorder: spectral key generation and distribution in random lasers
Hu, Zhijia
He, Shilong
Qi, Lianghao
Li, Yalan
Li, Siqi
Chen, Bin
Du, Wenyu
Kuai, Yan
Cao, Zhigang
Wang, Min
Zhou, Kaiming
Zhang, Lin
Guo, Qingchuan
Ding, Weimin
Li, Chao
Xie, Kang
Gomes, Anderson S. L.
Yu, Benli
Optics
In secure communication, highly random entropy sources are essential for information security. Random lasers (RLs), which arise from multiple scattering in disordered structures, are potentially ideal entropy sources. Traditionally, RLs are viewed as disordered and unpredictable. However, in this work, we present novel evidence that orderly patterns exist beneath the seemingly disordered outputs of RLs. Utilizing deep learning techniques, a variety of advanced neural network models are used to analyze the spectral data in multiple dimensions. The results show that the time series of RLs spectra are unpredictable, but spectral wavelength component intensities can be recovered due to inter-modal correlations. This finding not only breaks through the traditional perception that RLs are unpredictable, but also reveals for the first time that RLs have the dual characteristics of both randomness and determinism. Based on this new characteristic, we further expand the application field of RLs and innovatively design a new type of key generation and distribution scheme. In this scheme, the disordered property of RLs is used for key generation to ensure high randomness, while their ordered property is used for key distribution to guarantee accuracy and reliability. The scheme provides a new strategy for secure communication.
title Order within disorder: spectral key generation and distribution in random lasers
topic Optics
url https://arxiv.org/abs/2505.04908