TCAD-Assisted Progress on the Cisco Platform Toward Low-Bias 200 Gbit/s vertical-<i>pin</i> Ge- on-Si Waveguide Photodetectors

Alasio, Matteo G. C.; Vallone, Marco; Tibaldi, Alberto; Namnabat, Soha; Adams, Donald; Gothoskar, Prakash; Forghieri, Fabrizio; Masini, Gianlorenzo; Bertazzi, Francesco; Ghione, Giovanni; Gioannini, Mariangela; Goano, Michele

doi:10.1109/jlt.2024.3352437

J. Lightwave Technol.

2024

DOI: 10.1109/jlt.2024.3352437

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TCAD-Assisted Progress on the Cisco Platform Toward Low-Bias 200 Gbit/s vertical-pin Ge- on-Si Waveguide Photodetectors

Matteo G. C. Alasio,

Marco Vallone,

Alberto Tibaldi

et al.

Abstract: We discuss the characterization and numerical simulation of vertical Ge-on-Si waveguide photodetectors (VPIN WPDs) of the Cisco platform for data communications in the O-band (1.31 µm), with the goal of optimizing their frequency response while integrating them into low-power systems. In a large set of WPDs belonging to 6 different structural variants, at a standard bias voltage of −2 V the best specimens exhibit an intrinsic electro-optic bandwidth of more than 40 GHz, which is reduced to about 10 GHz at zero… Show more

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Cited by 2 publications

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High-performance self-powered NIR photodetectors enabled by PbSe quantum dot surface passivation with P3HT through bulk-heterojunction integration

Sulaman,

Han,

Qasim

et al. 2025

Materials Today Chemistry

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High-performance self-powered NIR photodetectors enabled by PbSe quantum dot surface passivation with P3HT through bulk-heterojunction integration

Sulaman,

Han,

Qasim

et al. 2025

Materials Today Chemistry

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High operating temperature HgCdTe coupled cavity plasmonic infrared photodetectors

Vallone,

Goano,

Tibaldi

2024

Opt. Express

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Increasing the operating temperature while enhancing detectivity is paramount for the advancement of HgCdTe infrared detectors. In this context, the integration of plasmonic nanostructures emerges as one of the most intriguing avenues, promising breakthroughs in infrared sensing capabilities. Multiphysics TCAD simulations of pin nanostructured focal plane photodetector arrays unveil the potential benefits of submicron absorber thicknesses, that promise detectivities more than twice as large as those provided by conventional 5μm-thick absorbers, besides enabling operating temperatures up to 260 K. Such performance increase is discussed through the combination of numerical simulations and quantum mechanical treatment based on the occupation number formalism, describing the interaction between plasmonic and optical cavity modes responsible for the spectral broadening of the optical response, allowing for good coverage of the entire mid-infrared band (λ∈[3,5]μm).

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TCAD-Assisted Progress on the Cisco Platform Toward Low-Bias 200 Gbit/s vertical-pin Ge- on-Si Waveguide Photodetectors

Cited by 2 publications

References 45 publications

High-performance self-powered NIR photodetectors enabled by PbSe quantum dot surface passivation with P3HT through bulk-heterojunction integration

High-performance self-powered NIR photodetectors enabled by PbSe quantum dot surface passivation with P3HT through bulk-heterojunction integration

High operating temperature HgCdTe coupled cavity plasmonic infrared photodetectors

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