Chinese Optics Letters, Volume. 19, Issue 11, 113902(2021)
Chip-scale Brillouin instantaneous frequency measurement by use of one-shot frequency-to-power mapping based on lock-in amplification
References(16)
[1] M. Skolnik. Introduction to Radar Systems(2001).
[2] X. Zou, B. Lu, W. Pan, L. Yan, A. Stöhr, J. Yao. Photonics for microwave measurements. Laser Photon. Rev., 10, 711(2016).
[3] D. Marpaung. On-chip photonic-assisted instantaneous microwave frequency measurement system. IEEE Photon. Technol. Lett., 25, 837(2013).
[4] B. Zhu, W. Zhang, S. Pan, J. Yao. High-sensitivity instantaneous microwave frequency measurement based on a silicon photonic integrated Fano resonator. J. Lightwave Technol., 37, 2527(2019).
[5] D. Marpaung, J. Yao, J. Capmany. Integrated microwave photonics. Nat. Photon., 13, 80(2019).
[6] Y. Zhou, F. Zhang, S. Pan. Instantaneous frequency analysis of broadband LFM signals by photonics-assisted equivalent frequency sampling. Chin. Opt. Lett., 19, 013901(2021).
[7] Y. Chen, W. Zhang, J. Liu, J. Yao. On-chip two-step microwave frequency measurement with high accuracy and ultra-wide bandwidth using add-drop micro-disk resonators. Opt. Lett., 44, 2402(2019).
[8] M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, D. Marpaung. Low-error and broadband microwave frequency measurement in a silicon chip. Optica, 2, 751(2015).
[9] M. Burla, X. Wang, M. Li, L. Chrostowski, J. Azaña. Wideband dynamic microwave frequency identification system using a low-power ultracompact silicon photonic chip. Nat. Commun., 7, 13004(2016).
[10] H. Jiang, D. Marpaung, M. Pagani, K. Vu, D. Choi, S. J. Madden, L. Yan, B. J. Eggleton. Wide-range, high-precision multiple microwave frequency measurement using a chip-based photonic Brillouin filter. Optica, 3, 30(2016).
[11] W. Zou, X. Long, X. Li, G. Xin, J. Chen. Brillouin instantaneous frequency measurement with an arbitrary response for potential real-time implementation. Opt. Lett., 44, 2045(2019).
[12] B. J. Eggleton, C. G. Poulton, P. T. Rakich, M. J. Steel, G. Bahl. Brillouin integrated photonics. Nat. Photon., 13, 664(2019).
[13] S. Li, X. Li, W. Zhang, J. Chen, W. Zou. Investigation of Brillouin properties in high-loss doped silica waveguides by comparison experiment. IEEE Photon. Technol. Lett., 32, 948(2020).
[14] E. P. Ippen, R. H. Stolen. Stimulated Brillouin scattering in optical fibers. Appl. Phys. Lett., 21, 539(1972).
[15] K. Hu, L. Yi, W. Wei, W. Hu. Microwave photonic filter design and optimization based on stimulated Brillouin scattering using a directly modulated pump. Chin. Opt. Lett., 17, 060603(2019).
[16] J. H. Scofield. Frequency-domain description of a lock-in amplifier. Am. J. Phys., 62, 129(1994).
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Yuqiu Xu, Yonglan Yang, Xing Li, Xin Wang, Weiwen Zou, "Chip-scale Brillouin instantaneous frequency measurement by use of one-shot frequency-to-power mapping based on lock-in amplification," Chin. Opt. Lett. 19, 113902 (2021)
Paper Information
Category: Microwave Photonics
Received: Aug. 30, 2021
Accepted: Sep. 29, 2021
Posted: Oct. 8, 2021
Published Online: Oct. 26, 2021
The Author Email: Weiwen Zou (wzou@sjtu.edu.cn)
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