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    Journals >Study On Optical Communications >Volume 50 >Issue 4 >Page 23004501 > Article
    • Study On Optical Communications
    • Vol. 50, Issue 4, 23004501 (2024)
    TPA Detection of 2 μm Wavelength Band Ge-on-SOI Photodetector
    Zhitao HU, Zhutian WANG, Yuehua OUYANG, Longxin HUANG..., Fufei PANG, Nan YE* and Yingxiong SONG|Show fewer author(s)
    Author Affiliations
  • Key Laboratory of Specially Fiber Optics and Optical Access Networks, Shanghai University, Shanghai 200444, China
    • show less
    DOI: 10.13756/j.gtxyj.2024.230045 Cite this Article
    Zhitao HU, Zhutian WANG, Yuehua OUYANG, Longxin HUANG, Fufei PANG, Nan YE, Yingxiong SONG. TPA Detection of 2 μm Wavelength Band Ge-on-SOI Photodetector[J]. Study On Optical Communications, 2024, 50(4): 23004501 Copy Citation Text show less
    References

    [1] Gunning F, Corbett B. Time to Open the 2 μm Window[J]. Optics and Photonics News, 30, 42-47(2019).

    [2] Suibhne M N, Li Z, Baeuerle B et al. WDM Transmission at 2 μm over Low-loss Hollow Core Photonic Bandgap Fiber[C], OW1I.6(2013).

    [3] Shen D Y, Zhang Z, Boyland A J et al. Thulium-doped Distributed-feedback Fiber Laser with > 0.3 W Output at 1 935 nm[C], BTuC.1(2007).

    [4] Richardson D J. Filling the Light Pipe[J]. Science, 330, 327-328(2010).

    [5] Milde T, Hoppe M, Fankem T H et al. Comparison of the Spectral Excitation Behavior of Methane According to InP, GaSb, IC, and QC Lasers as Excitation Source by Sensor Applications[J]. Applied Optics, 58, C84-C91(2019).

    [6] Olesberg J. Noninvasive Blood Glucose Monitoring in the 2.0-2.5 μm Wavelength Range[C], 01CH37242(2001).

    [7] Chen Y, Xie Z, Huang J et al. High-speed Uni-traveling Carrier Photodiode for 2 μm Wavelength Application[J]. Optica, 6, 884-889(2019).

    [8] Ghosh S, Mukhopadhyay B, Chang G. Design and Analysis of GeSn-based Resonant-cavity-enhanced Photodetectors for Optical Communication Applications[J]. IEEE Sensors Journal, 20, 7801-7809(2020).

    [9] Ackert J J, Thomson J D, Shen L et al. High-speed Detection at Two Micrometres with Monolithic Silicon Photodiodes[J]. Nature Photonics, 9, 393-396(2015).

    [10] Logan D F, Jessop P E, Knights A P. Modeling Defect Enhanced Detection at 1 550 nm in Integrated Silicon Waveguide Photodetectors[J]. Journal of Lightwave Technology, 27, 930-937(2009).

    [11] Sang X, Tien E, Boyraz O. Application of Two-photon Absorption in Silicon[J]. Journal of Optoelectronics and Advanced Materials, 11, 15-25(2009).

    [12] Shen L, Healy N, Mitchhell J C et al. Two-photon Absorption and All-optical Modulation in Germanium-on-silicon Waveguides for the Mid-infrared[J]. Optics Letters, 40, 2213-2216(2015).

    [13] Baptiste F, Julien J, Benjamin V et al. Nanostructured Diode for Infrared Photodetection Through Nondegenerate Two-photon Absorption[J]. Applied Physics Letters, 111, 041102(2017).

    [14] Abitan H, Bohr H, Buchhave P. Correction to the Beer-lambert-bouguer Law for Optical Absorption[J]. Applied Optics, 47, 5354-5357(2008).

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    Zhitao HU, Zhutian WANG, Yuehua OUYANG, Longxin HUANG, Fufei PANG, Nan YE, Yingxiong SONG. TPA Detection of 2 μm Wavelength Band Ge-on-SOI Photodetector[J]. Study On Optical Communications, 2024, 50(4): 23004501
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