Title :
High Detectivity Uncooled Thermal Detectors With Resonant Cavity Coupled Absorption in the Long-Wave Infrared
Author :
Gawarikar, A.S. ; Shea, R.P. ; Talghader, Joseph J.
Author_Institution :
Dept. of Electr. Eng., Univ. of Minnesota, Minneapolis, MN, USA
Abstract :
We describe uncooled thermal detectors with a peak detectivity of at least 3 ×109 cm √{Hz}/W with spectrally selective absorption in the long-wave infrared. The spectral selectivity in absorption is achieved through resonant cavity coupling of a thin metal film with a low-order air-gap optical cavity. The electrical readout uses thermoelectric thin films with a Johnson noise limited performance. The detectors are of multiple sizes but those with 100- μm2 area have time constants of 58 ms and thermal conductances of 2.3 ×10-7 W/K.
Keywords :
air gaps; infrared detectors; light absorption; metallic thin films; readout electronics; temperature sensors; thermal noise; Johnson noise limited performance; electrical readout; high detectivity uncooled thermal detectors; long-wave infrared detector; low-order air-gap optical cavity; resonant cavity coupled absorption; resonant cavity coupling; spectral selective absorption; thermal conductances; thermoelectric thin films; thin metal film; time 58 ms; Infrared detectors; optical resonators; thermoelectric devices;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2270295
