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- T. Gong, A. Chandra, C. Yuen, Y. L. Guan, R. Dumke, C. M. S. See, M. Debbah, and L. Hanzo, Rydberg atomic quantum receivers for classical wireless communication and sensing, accepted by IEEE Wireless Commun., early access. Available online: [PDF]
- T. Gong, J. Sun, C. Yuen, G. Hu, Y. Zhao, Y. L. Guan, C. M. S. See, M. Debbah, and L. Hanzo, An Equivalent Baseband Signal Model for Rydberg Atomic Quantum Receivers Aided Wireless Communications and Sensing, International Conference on Quantum Communications, Networking, and Computing (QCNC), 2025.
- T. Gong, C. Yuen, C. M. S. See, M. Debbah, and L. Hanzo, Rydberg Atomic Quantum Receivers for the Multi-User MIMO Uplink, 2025 IEEE Int. Conf. Commun. (ICC), 2025.
- T. Gong, J. Sun, C. Yuen, G. Hu, Y. Zhao, Y. L. Guan, C. M. S. See, M. Debbah, and L. Hanzo, Rydberg atomic quantum receivers for classical wireless communications and sensing: Models and performances, Available online: [PDF]
- T. Gong, C. Yuen, C. M. S. See, M. Debbah, L. Hanzo, Rydberg Atomic Quantum MIMO Receivers for The Multi-User Uplink, May 2025. Available online: [PDF]
- T. Gong, C. Yuen, C. M. S. See, M. Debbah, and L. Hanzo, Rydberg atomic quantum receivers for multi-target DOA estimation. Available online: [PDF]
- Y. Chen, X. Guo, C. Yuen, Y. Zhao, Y. L. Guan, C. M. S. See, M. Debbah, and L. Hanzo, Harnessing Rydberg atomic receivers: From quantum physics to wireless communications, Available online: [PDF]