Laser & Optoelectronics Progress, Volume. 61, Issue 19, 1913014(2024)
Research Progress of Computational Reconstruction Spectrometer Based on Silicon Photonics Technology (Invited)
[2] Bacon C P, Mattley Y, DeFrece R. Miniature spectroscopic instrumentation: applications to biology and chemistry[J]. Review of Scientific Instruments, 75, 1-16(2004).
[3] Clark R N, Roush T L. Reflectance spectroscopy: Quantitative analysis techniques for remote sensing applications[J]. Journal of Geophysical Research: Solid Earth, 89, 6329-6340(1984).
[6] Cao H. Perspective on speckle spectrometers[J]. Journal of Optics, 19, 060402(2017).
[8] Redding B, Alam M, Seifert M et al. High-resolution and broadband all-fiber spectrometers[J]. Optica, 1, 175-180(2014).
[9] Liew S F, Redding B, Choma M A et al. Broadband multimode fiber spectrometer[J]. Optics Letters, 41, 2029-2032(2016).
[10] Wan Y Y, Fan X Y, He Z Y. Review on speckle-based spectrum analyzer[J]. Photonic Sensors, 11, 187-202(2021).
[11] Ye Y L, Zhang J Q, Liu D L et al. Research on a spectral reconstruction method with noise tolerance[J]. Current Optics and Photonics, 5, 562-575(2021).
[12] Zheng Z H, Zhu S K, Chen Y et al. Towards integrated mode-division demultiplexing spectrometer by deep learning[J]. Opto-Electronic Science, 1, 220012(2022).
[13] Zhang Z, Huang B J, Zhang Z Y et al. On-chip reconstructive spectrometer based on parallel cascaded micro-ring resonators[J]. Applied Sciences, 14, 4886(2024).
[14] Yao C H, Xu K N, Zhang W L et al. Integrated reconstructive spectrometer with programmable photonic circuits[J]. Nature Communications, 14, 6376(2023).
[15] Yao C H, Chen M J, Yan T et al. Broadband picometer-scale resolution on-chip spectrometer with reconfigurable photonics[J]. Light: Science & Applications, 12, 156(2023).
[16] Kwak Y, Park S M, Ku Z et al. A pearl spectrometer[J]. Nano Letters, 21, 921-930(2021).
[17] Yang T, Huang X L, Ho H P et al. Compact spectrometer based on a frosted glass[J]. IEEE Photonics Technology Letters, 29, 217-220(2017).
[19] Piels M, Zibar D. Compact silicon multimode waveguide spectrometer with enhanced bandwidth[J]. Scientific Reports, 7, 43454(2017).
[20] Yi D, Zhang Y J, Wu X R et al. Integrated multimode waveguide with photonic lantern for speckle spectroscopy[J]. IEEE Journal of Quantum Electronics, 57, 0600108(2021).
[21] Yi D, Tsang H K. High-resolution and broadband two-stage speckle spectrometer[J]. Journal of Lightwave Technology, 40, 7969-7976(2022).
[23] Hartmann W, Varytis P, Gehring H et al. Broadband spectrometer with single-photon sensitivity exploiting tailored disorder[J]. Nano Letters, 20, 2625-2631(2020).
[24] Hartmann W, Varytis P, Gehring H et al. Waveguide-integrated broadband spectrometer based on tailored disorder[J]. Advanced Optical Materials, 8, 1901602(2020).
[25] Li A, Fainman Y. On-chip spectrometers using stratified waveguide filters[J]. Nature Communications, 12, 2704(2021).
[26] Zhang Z Y, Li Y, Wang Y et al. Compact high resolution speckle spectrometer by using linear coherent integrated network on silicon nitride platform at 776 nm[J]. Laser & Photonics Reviews, 15, 2100039(2021).
[27] Xu H N, Qin Y, Hu G L et al. Breaking the resolution-bandwidth limit of chip-scale spectrometry by harnessing a dispersion-engineered photonic molecule[J]. Light: Science & Applications, 12, 64(2023).
[28] Li A, Wang C, Bao F X et al. An integrated single-shot spectrometer with large bandwidth-resolution ratio and wide operation temperature range[J]. PhotoniX, 4, 29(2023).
[30] Wen J R, Hao L Y, Gao C et al. Deep learning-based miniaturized all-dielectric ultracompact film spectrometer[J]. ACS Photonics, 10, 225-233(2023).
[31] Zhang J H, Zhu X Y, Bao J. Denoising autoencoder aided spectrum reconstruction for colloidal quantum dot spectrometers[J]. IEEE Sensors Journal, 21, 6450-6458(2021).
[32] Zhou X Y, Zhang X Y, Zuo Y et al. Ultra-compact on-chip spectrometer based on thermally tuned topological miniaturized bound states in the continuum cavity[J]. Optics Letters, 48, 4993-4996(2023).
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Zan Zhang, Beiju Huang. Research Progress of Computational Reconstruction Spectrometer Based on Silicon Photonics Technology (Invited)[J]. Laser & Optoelectronics Progress, 2024, 61(19): 1913014
Category: Integrated Optics
Received: Jul. 1, 2024
Accepted: Aug. 13, 2024
Published Online: Nov. 5, 2024
The Author Email:
CSTR:32186.14.LOP241582