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Multi-Gb/s free-space laser communication at 4.6-μm wavelength using a high-speed, room-temperature, resonant-cavity infrared detector (RCID) and a quantum-cascade laser

Robert A. Marsland, Steven A. Jacobs, C. L. Canedy, Chase T. Ellis, Chul Soo Kim, Eric M. Jackson, I. Vurgaftman, B. Kolasa, Vijaysekhar Jayaraman, Morgan Turville-Heitz, T. Earles, Steven Ruder, B. Knipfer, Jaemin Ryu, J. R. Meyer, D. Botez, L. J. Mawst

2024Optics Express11 citationsDOIOpen Access PDF

Abstract

Research has shown that free-space laser communication systems may experience fewer outages due to atmospheric impairments such as haze, fog, clouds, and turbulence by operating at a longer wavelength in the mid-wave or long-wave infrared, if disadvantages such as lower-performance transceiver components may be overcome. Here we report a resonant cavity infrared detector (RCID) with 4.6-µm resonance wavelength that enables 20-dB larger link budget than has been reported previously for ∼ 5 Gb/s operation. The device combines high responsivity, 1.97 A/W, with a low noise equivalent power (NEP) of 0.7 pW/ H z at room temperature, and a high bandwidth of 6.7 GHz at 3-dB. The relatively large surface-normal-incidence device with 30-µm diameter simplifies the coupling relative to intra-subband quantum cascade detectors. Although the RCID NEP is expected to increase with frequency to ∼ 1.5 pW/ H z , we estimate that the total equivalent noise power in a 2.5-GHz bandwidth is less than 200 nW. When combined with a relatively high power (∼100-mW) distributed-feedback quantum cascade laser, the difference of > 50 dB between modulated laser power and RCID noise significantly outpaces that of existing devices.

Topics & Concepts

OpticsQuantum cascade laserLaserFree-space optical communicationDetectorCascadeWavelengthFar-infrared laserOptoelectronicsMaterials scienceInfraredPhysicsChemistryChromatographySemiconductor Lasers and Optical DevicesSpectroscopy and Laser ApplicationsPhotonic and Optical Devices
Multi-Gb/s free-space laser communication at 4.6-μm wavelength using a high-speed, room-temperature, resonant-cavity infrared detector (RCID) and a quantum-cascade laser | Litcius