Title :
Novel Detection Scheme for Cryogenic Bolometers With High Sensitivity and Scalability
Author :
Arndt, Matthias ; Wuensch, Stefan ; Kuzmin, Artyom ; Anders, Solveig ; May, Torsten ; Schubert, Martin ; Meyer, Hans-Georg ; Siegel, Mel
Author_Institution :
Inst. fur Mikro-und Nanoelektronische Syst., Karlsruher Inst. fur Technol., Karlsruhe, Germany
Abstract :
Cryogenic bolometers based on thin silicon nitride membranes show a very high sensitivity, which makes them ideal for ultrasensitive detector applications, particularly in the field of submillimeter-wave imaging. For that, transition-edge sensors (TESs) have been established as a viable approach toward developing multipixel sensor arrays. However, current multiplexer techniques as time- or code-division multiplexing do not scale well to multiplexing levels of several hundred detectors per channel. To achieve such a scalable readout solution, frequency-division multiplexing (FDM) would be an applicable way. For that, the temperature-sensing element of a bolometer has to be resonant or coupled to a resonance circuit, which changes its microwave behavior with the temperature of the absorber.
Keywords :
Q-factor; bolometers; cryogenics; frequency division multiplexing; membranes; microwave detectors; niobium; readout electronics; sensor arrays; silicon compounds; superconducting microwave devices; superconducting thin films; temperature sensors; thin film sensors; type II superconductors; FDM readout capability; KID; Si; SiN-Nb; TES; absorber temperature; crosstalk; cryogenic bolometers; cryostat; frequency-division multiplexing; kinetic inductance bolometer; lumped-element kinetic inductance detectors; microwave behavior; multipixel sensor arrays; niobium thin-film technology; noise equivalent power; quality factors; readout bandwidth; resonance circuit; resonant readout circuit; scalable readout solution; silicon substrates; spectral packing density; submillimeter-wave imaging; temperature 4.2 K; temperature-sensing element; thin silicon nitride membranes; transition-edge sensors; ultrasensitive detector applications; Bolometers; Detectors; Frequency division multiplexing; Noise; Resonant frequency; Temperature measurement; Transmission line measurements; Bolometer; frequency-division multi-access; frequency-division multiaccess; kinetic inductance detector; kinetic-inductance detector; microwave; superconductivity;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2363413
