Multi‐Object Silicon Photonic Spectrometer

A multi‐object silicon photonic spectrometer with N input ports is proposed and realized by integrating a multi‐channel passband optical filter (POF), a tunable narrow‐band optical filter as well as a calibration‐free N × 1 Mach–Zehnder switch (MZS) array. Here, the multi‐channel POF consisting of a...

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Veröffentlicht in:	Laser & photonics reviews 2025-01, Vol.19 (1), p.n/a
Hauptverfasser:	Ding, Zhihuan, Zhang, Long, Liu, Dajian, Song, Lijia, Dai, Daoxin
Format:	Artikel
Sprache:	eng
Schlagworte:	Crosstalk micro‐ring resonator Multiplexers multi‐object spectrometer Optical filters passband optical filter Photonics Silicon silicon photonics Spectral resolution Spectrum analysis Time division multiplexing Waveguides
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description	A multi‐object silicon photonic spectrometer with N input ports is proposed and realized by integrating a multi‐channel passband optical filter (POF), a tunable narrow‐band optical filter as well as a calibration‐free N × 1 Mach–Zehnder switch (MZS) array. Here, the multi‐channel POF consisting of a multimode waveguide grating (MWG) and a mode (de)multiplexer is used to achieve a broadened working window and an enhanced dynamic range for the present spectrometer, while the narrow‐band optical filter is realized with a thermally‐tunable Euler micro‐ring resonator (EMR) for achieving a very high spectral resolution. The introduction of the N × 1 MZS enables the time‐division‐multiplexed (TDM) spectrum analysis for multiple objects. In this paper, a multi‐object silicon photonic spectrometer with 16 input ports is demonstrated with an on‐chip loss of less than 3 dB and inter‐channel crosstalk as low as −25 dB. This multi‐object spectrometer can be used to analyze the spectra of 16 objects one by one by setting the 16 × 1 MZS, the resolution is as high as 50 pm, and the working window is ≈84 nm. An on‐chip multi‐object silicon photonic spectrometer with 16 input ports is demonstrated by integrating a multi‐channel passband filter, a tunable narrow‐band filter, and a calibration‐free N × 1 Mach‐Zehnder switch array. It achieves a spectral resolution of 50 pm, with a working window of 84 nm, enabling the sequential analysis of 16 objects.
doi_str_mv	10.1002/lpor.202400671
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An on‐chip multi‐object silicon photonic spectrometer with 16 input ports is demonstrated by integrating a multi‐channel passband filter, a tunable narrow‐band filter, and a calibration‐free N × 1 Mach‐Zehnder switch array. 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Here, the multi‐channel POF consisting of a multimode waveguide grating (MWG) and a mode (de)multiplexer is used to achieve a broadened working window and an enhanced dynamic range for the present spectrometer, while the narrow‐band optical filter is realized with a thermally‐tunable Euler micro‐ring resonator (EMR) for achieving a very high spectral resolution. The introduction of the N × 1 MZS enables the time‐division‐multiplexed (TDM) spectrum analysis for multiple objects. In this paper, a multi‐object silicon photonic spectrometer with 16 input ports is demonstrated with an on‐chip loss of less than 3 dB and inter‐channel crosstalk as low as −25 dB. This multi‐object spectrometer can be used to analyze the spectra of 16 objects one by one by setting the 16 × 1 MZS, the resolution is as high as 50 pm, and the working window is ≈84 nm. 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An on‐chip multi‐object silicon photonic spectrometer with 16 input ports is demonstrated by integrating a multi‐channel passband filter, a tunable narrow‐band filter, and a calibration‐free N × 1 Mach‐Zehnder switch array. It achieves a spectral resolution of 50 pm, with a working window of 84 nm, enabling the sequential analysis of 16 objects.</abstract><cop>Weinheim</cop><pub>Wiley Subscription Services, Inc</pub><doi>10.1002/lpor.202400671</doi><tpages>10</tpages><orcidid>https://orcid.org/0009-0009-0205-4575</orcidid><orcidid>https://orcid.org/0000-0002-2769-3009</orcidid></addata></record>
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subjects	Crosstalk micro‐ring resonator Multiplexers multi‐object spectrometer Optical filters passband optical filter Photonics Silicon silicon photonics Spectral resolution Spectrum analysis Time division multiplexing Waveguides
title	Multi‐Object Silicon Photonic Spectrometer
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