Journal
ACS PHOTONICS
Volume 9, Issue 2, Pages 360-367Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsphotonics.1c01273
Keywords
terahertz detection; bolometer; room temperature; self-mixing; micromechanical resonator; optomechanics
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Funding
- EU ATTRACT Project [777222]
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This research introduces micromechanical bolometers based on silicon nitride trampoline membranes as a room-temperature imaging technique for terahertz frequencies. The technology shows good performance and ease of fabrication, making it a potential candidate for cheap terahertz imaging and related applications.
Fast room-temperature imaging at terahertz (THz) and subterahertz (sub-THz) frequencies is an interesting technique that could unleash the full potential of plenty of applications in security, healthcare, and industrial production. In this Letter, we introduce micromechanical bolometers based on silicon nitride trampoline membranes as broad-range detectors down to sub-THz frequencies. They show, at the longest wavelengths, room-temperature noise-equivalent powers comparable to those of stateof-the-art commercial devices (similar to 100 pW Hz(-1/2)), which, along with the good operation speed and the easy, large-scale fabrication process, could make the trampoline membrane the next candidate for cheap room-temperature THz imaging and related applications.
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