| Literature DB >> 33531792 |
Felix T Jaeckel1, C V Ambarish1, Haoran Dai1, Shukai Liu1, Dan McCammon1, Mari McPheron1, Kari L Nelms1, Avirup Roy1, Haley R Stueber1, Simon R Bandler2, James A Chervenak2, Kazuhiro Sakai2, Stephen J Smith2.
Abstract
Pulses of narrow line-width optical photons can be used to calibrate and test sub-2 eV full-width at halfmaximum (FWHM) energy resolution transition-edge sensor (TES) microcalorimeters at low energies (< 1 keV), where it is very challenging to obtain X-ray calibration lines comparable to (or narrower than) the detector resolution. This scheme depends on the ability to resolve the number of 3 eV photons in each pulse, which we have recently demonstrated up to photon numbers of about 300. At LTD-18 we showed preliminary results obtained with this technique on a 0.25 eV baseline resolution TES microcalorimeter designed for the ultra-high-resolution subarray of the Lynx mission. The line-shape was well described by a simple Gaussian. However, the difficulty of delivering photons to the small 46 μm square absorbers resulted in a large thermal crosstalk signal, whose random nature is expected to rapidly degrade the observed energy resolution towards higher photon numbers/energies. We have since improved the coupling between the optical fiber and the TES absorber and report here our current results.Entities:
Keywords: Astrophysics; Calibration sources; Energy resolution; Microcalorimeters; Photon number resolution; Transition edge sensors; X-ray detectors
Year: 2021 PMID: 33531792 PMCID: PMC7849770 DOI: 10.1109/tasc.2021.3053506
Source DB: PubMed Journal: IEEE Trans Appl Supercond