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Conference Paper Receiving resonant phase-modulated signals using atomic magnetometer for magnetic communications
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Authors
Hyun Joon Lee, Jung Hoon Oh, Jang-Yeol Kim, Kye-Seok Yoon, In-Kui Cho
Issue Date
2023-09
Citation
International Conference on Sensing, Communication, and Networking (SECON) 2023, pp.381-382
Language
English
Type
Conference Paper
DOI
https://dx.doi.org/10.1109/SECON58729.2023.10287458
Abstract
Telecommunication in harsh environments, such as an electrically conductive medium, requires the use of carrier bands with very-low and ultralow frequencies for radiofrequency links. Recent advancements in atomic magnetometers operating at very-low frequencies have facilitated the reception of digitally modulated signals. We demonstrate the ability to transmit and receive quadrature phase-shift keying (QPSK) signals using a multi-resonant loop antenna and atomic magnetometer. The introduced multi-resonant loop antenna noticeably enhances the bandwidth, with an expansion exceeding 70% compared with a single-loop antenna. Additionally, utilizing an atomic magnetometer, we successfully demodulated a QPSK signal with a carrier frequency of 20 kHz and a symbol rate of 150 symbols per second. The acquired measurements reveal an error vector magnitude of 7.29% and a signal-to-noise ratio of 30.9 dB. These findings highlight the potential of the proposed system for efficient and reliable very-low frequency telecommunication in challenging environmental conditions.
KSP Keywords
Carrier frequency, Electrically conductive, Loop antenna, Phase-modulated, QPSK signal, Signal noise ratio(SNR), Signal-to-Noise, Single-loop, atomic magnetometer, digitally modulated signals, environmental conditions