Title :
Optimization of thermal kinetic inductance detectors for x-ray spectroscopy
Author :
Cecil, Thomas W. ; Gades, Lisa ; Madden, Timothy ; Daikang Yan ; Miceli, Antonino
Author_Institution :
Argonne Nat. Lab., Argonne, IL, USA
Abstract :
Thermal kinetic inductance detectors (TKIDs) are promising new detectors for use in X-ray spectroscopy because of the relative ease with which they can be fabricated into large arrays. While initial results have hinted at their resolution capability, the ultimate resolution achievable with these detectors has not been described. Using a bolometer matrix formalism, we examine the parameter space of the detector design (i.e., film critical temperature, detector operating temperature, resonator coupling, etc.) to examine the detectors response to noise sources, including phonon, Johnson, bias, and amplifier noise. Finally, we present the design of TKID optimized for 6-keV X-ray spectroscopy.
Keywords :
X-ray detection; X-ray spectroscopy; bolometers; matrix algebra; optimisation; phonons; thermal noise; Johnson noise; TKID design; X-ray spectroscopy; amplifier noise; bias noise; bolometer matrix formalism; detector operating temperature; film critical temperature; noise sources; optimization; parameter space; phonon; resonator coupling; thermal kinetic inductance detectors; Bandwidth; Detectors; Energy resolution; Noise; Resonant frequency; Sensitivity; Temperature measurement; Kinetic inductance detectors; X-ray detectors; X-ray spectrometry; kinetic inductance detectors; microcalorimeter; superconducting resonators; x-ray detectors; x-ray spectrometry;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2014.2384995
