High-sensitivity waveguide-integrated bolometer based on free-carrier absorption for Si photonic sensors
Optics Express, 2022•opg.optica.org
Conventional photon detectors necessarily face critical challenges regarding strong
wavelength-selective response and narrow spectral bandwidth, which are undesirable for
spectroscopic applications requiring a wide spectral range. With this perspective, herein, we
overcome these challenges through a free-carrier absorption-based waveguide-integrated
bolometer for infrared spectroscopic sensors on a silicon-on-insulator (SOI) platform
featuring a spectrally flat response at near-infrared (NIR) range (1520-1620 nm). An in-depth …
wavelength-selective response and narrow spectral bandwidth, which are undesirable for
spectroscopic applications requiring a wide spectral range. With this perspective, herein, we
overcome these challenges through a free-carrier absorption-based waveguide-integrated
bolometer for infrared spectroscopic sensors on a silicon-on-insulator (SOI) platform
featuring a spectrally flat response at near-infrared (NIR) range (1520-1620 nm). An in-depth …
Conventional photon detectors necessarily face critical challenges regarding strong wavelength-selective response and narrow spectral bandwidth, which are undesirable for spectroscopic applications requiring a wide spectral range. With this perspective, herein, we overcome these challenges through a free-carrier absorption-based waveguide-integrated bolometer for infrared spectroscopic sensors on a silicon-on-insulator (SOI) platform featuring a spectrally flat response at near-infrared (NIR) range (1520-1620 nm). An in-depth thermal analysis was conducted with a systematic investigation of geometry dependence on the detectors. We achieved great performances: temperature coefficient of resistance (TCR) of -3.786%/K and sensitivity of -26.75%/mW with a low wavelength dependency, which are record-high values among reported waveguide bolometers so far, to our knowledge. In addition, a clear on-off response with the rise/fall time of 24.2/29.2 µs and a 3-dB roll-off frequency of ∼22 kHz were obtained, sufficient for a wide range of sensing applications. Together with the possibility of expanding an operation range to the mid-infrared (MIR) band, as well as simplicity in the detector architecture, our work here presents a novel strategy for integrated photodetectors covering NIR to MIR at room temperature for the development of the future silicon photonic sensors with ultrawide spectral bandwidth.
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