Ultraviolet thermoelectric single photon detector with high signal-to-noise ratio

Abstract: In this paper, we present the results of simulating heat propagation processes in the thermoelectric detection pixel after absorbing single photons of UV radiation with energies ranging from 7.1 to 124 eV. The detection pixels, with an operating temperature of 1 K, consist of an absorber (W), a thermoelectric sensor (La 0.99 Ce 0.01 B 6 ), a heat sink (W), and a substrate (Al 2 O 3 ). The heat transfer processes in the detection pixels with different layer thicknesses and surface areas were modeled and simulat… Show more

“…We proposed the TSPD detection pixel design for efficient detection of UV photons with energies exceeding 7.1 eV. 27 This work aims to identify the most promising nanoscale thermoelectric detection pixel designs for detecting lower energy photons while optimizing detection efficiency and count rate.…”

Nanoscale thermoelectric detection pixel for single-photon detection from far ultraviolet to near infrared

“…We proposed the TSPD detection pixel design for efficient detection of UV photons with energies exceeding 7.1 eV. 27 This work aims to identify the most promising nanoscale thermoelectric detection pixel designs for detecting lower energy photons while optimizing detection efficiency and count rate.…”

Nanoscale thermoelectric detection pixel for single-photon detection from far ultraviolet to near infrared