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High-speed quantum cascade detector characterized with a mid-infrared femtosecond oscillator

2021; Optica Publishing Group; Volume: 29; Issue: 4 Linguagem: Inglês

10.1364/oe.417976

1094-4087

Johannes Hillbrand, Léonard M. Krüger, Sandro Dal Cin, Hedwig Knötig, Jonas Heidrich, A. M. Andrews, G. Strasser, U. Keller, Benedikt Schwarz,

Photonic and Optical Devices

Quantum cascade detectors (QCD) are photovoltaic mid-infrared detectors based on intersubband transitions. Owing to the sub-picosecond carrier transport between subbands and the absence of a bias voltage, QCDs are ideally suited for high-speed and room temperature operation. Here, we demonstrate the design, fabrication, and characterization of 4.3 µm wavelength QCDs optimized for large electrical bandwidth. The detector signal is extracted via a tapered coplanar waveguide (CPW), which was impedance-matched to 50 Ω. Using femtosecond pulses generated by a mid-infrared optical parametric oscillator (OPO), we show that the impulse response of the fully packaged QCDs has a full-width at half-maximum of only 13.4 ps corresponding to a 3-dB bandwidth of more than 20 GHz. Considerable detection capability beyond the 3-dB bandwidth is reported up to at least 50 GHz, which allows us to measure more than 600 harmonics of the OPO repetition frequency reaching 38 dB signal-to-noise ratio without the need of electronic amplification.