Acta Photonica Sinica, Volume. 53, Issue 4, 0406006(2024)
Real-time Spectrum Analysis of Wideband RF Signals Based on Fractional Temporal Talbot Effect
References(17)
[1] BRYANT G H. Principles of microwave measurements[M]. IET(1993).
[2] CHENG Kaixin, ZHU Lei, YANG Weiwei et al. Analysis of communication spectrum behavior in electromagnetic confrontation environment[J]. Data Acquisition and Processing, 37, 680-694(2022).
[3] ZOU X H, LU B, PAN W et al. Photonics for microwave measurements[J]. Laser & Photonics Reviews, 10, 711-734(2016).
[4] CHEN Zengping, WU Juhong, SU Shaoying et al. Broadband real-time spectrum analysis technology and its application[J]. Signal Processing, 28, 151-157(2012).
[5] KONATHAM S R, MARAM R, ROMERO CORTÉS L et al. Real-time gap-free dynamic waveform spectral analysis with nanosecond resolutions through analog signal processing[J]. Nature Communications, 11, 3309-3320(2020).
[6] ZOU X H, CHI H, YAO J P. Microwave frequency measurement based on optical power monitoring using a complementary optical filter pair[J]. IEEE Transactions on Microwave Theory and Techniques, 57, 505-511(2009).
[7] BUI L A. Recent advances in microwave photonics instantaneous frequency measurements[J]. Progress in Quantum Electronics, 69, 100237(2020).
[8] RUGELAND P, YU Z, STERNER C et al. Photonic scanning receiver using an electrically tuned fiber Bragg grating[J]. Optics Letters, 34, 3794-3796(2009).
[9] SHI J, ZHANG F, ZHOU Y et al. Photonic scanning receiver for wide-range microwave frequency measurement by photonic frequency octupling and in-phase and quadrature mixing[J]. Optics Letters, 45, 5381-5384(2020).
[10] XIE X, DAI Y, JI Y et al. Broadband photonic radio-frequency channelization based on a 39-GHz optical frequency comb[J]. IEEE Photonics Technology Letters, 24, 661-663(2012).
[11] YANG J, LI R, DAI Y et al. Wide-band RF receiver based on dual-OFC-based photonic channelization and spectrum stitching technique[J]. Optics Express, 27, 33194-33204(2019).
[12] DE CHATELLUS H G, CORTÉS L R, AZAÑA J. Optical real-time Fourier transformation with kilohertz resolutions[J]. Optica, 3, 1-8(2016).
[13] SAPERSTEIN R E, PANASENKO D, FAINMAN Y. Demonstration of a microwave spectrum analyzer based on time-domain optical processing in fiber[J]. Optics Letters, 29, 501-503(2004).
[14] DUAN Y, CHEN L, ZHOU H et al. Ultrafast electrical spectrum analyzer based on all-optical Fourier transform and temporal magnification[J]. Optics Express, 25, 7520-7529(2017).
[15] DUAN Y, CHEN L, ZHANG L et al. Temporal radio-frequency spectrum analyzer, based on asynchronous optical sampling assisted temporal convolution[J]. Optics Express, 26, 20735-20743(2018).
[16] YANG B, WU F B, YANG S N et al. Resolution-enhanced dynamic waveform spectral analysis based on the inverse temporal Talbot effect[J]. IEEE Photonics Technology Letters, 34, 749-752(2022).
[17] AZANA J, MURIEL M A. Temporal self-imaging effects: theory and application for multiplying pulse repetition rates[J]. IEEE Journal of Selected Topics in Quantum Electronics, 7, 728-744(2001).
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Bo YANG, Lei ZHAO, Shuna YANG, Hao CHI. Real-time Spectrum Analysis of Wideband RF Signals Based on Fractional Temporal Talbot Effect[J]. Acta Photonica Sinica, 2024, 53(4): 0406006
Paper Information
Category: Fiber Optics and Optical Communications
Received: Aug. 24, 2023
Accepted: Oct. 7, 2023
Published Online: May. 15, 2024
The Author Email: Lei ZHAO (leizhao@cumt.edu.cn)
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