<title>High-resolution gamma-ray spectrometers using bulk absorbers coupled to Mo/Cu multilayer superconducting transition-edge sensors</title>

Abstract: In x-ray and gamma-ray spectroscopy, it is desirable to have detectors with high energy resolution and high absorption efficiency. At LLNL, we have developed superconducting tunnel junction-based single photon x-ray detectors with thin film absorbers that have achieved these goals for photon energies up to 1 keV. However, for energies above 1 keV, the absorption efficiency of these thin-film detectors decreases drasti:a fly. We are developing the use of high-purity superconducting bulk materiats as microcatori… Show more

“…The need for useful detection efficiencies has catalyzed the development of two-body sensors in which a bulk absorber is attached to a much smaller thermometer. For gamma-ray detection, early success was achieved with semiconducting thermistors and superconducting tin absorbers [15] and tin absorbers subsequently worked well with TES thermometers [152]. The degradation of calorimeter energy resolution with increased heat capacity has so far limited the area of individual calorimeters designed for the 40-200 keV range to a few mm 2 .…”

Review of superconducting transition-edge sensors for x-ray and gamma-ray spectroscopy

“…The need for useful detection efficiencies has catalyzed the development of two-body sensors in which a bulk absorber is attached to a much smaller thermometer. For gamma-ray detection, early success was achieved with semiconducting thermistors and superconducting tin absorbers [15] and tin absorbers subsequently worked well with TES thermometers [152]. The degradation of calorimeter energy resolution with increased heat capacity has so far limited the area of individual calorimeters designed for the 40-200 keV range to a few mm 2 .…”

Review of superconducting transition-edge sensors for x-ray and gamma-ray spectroscopy

“…Enabling simultaneous observations of high resolution line emission in the keV range with correlated features in the hard X-ray range is an important scientific opportunity. TES-based single pixel and small array detectors working at 60-100 keV have been already produced [16,17]. In our case, a solution with a minimum impact (n. of pixels, complexity of the design) on the system is in order.…”

IXO TES Microcalorimeters: from Focal Plane instruments to Anticoincidence Detectors

“…A TES is a supaconducting film with a very narrow transition between zero resistance md normat resistance s.cb that small changes in temperature cause kuge changes in resistance. A silicm nitride (SiN) membrane substrate sewes as the weak thenm.1 link to the cold bath with typical thernd conductivity Grti -0.25 nW/K at a bath temperamre of 70 mK [8]. The bulk Sn is strongly coupled m the TES GOI a small amount of Stycast epoxy.…”

“…Knowledge of the superconducting transition [8] allows us to infer the change in temperature of the TES in both modes ( fig. 3).…”

Gamma-ray spectrometers using superconducting transition edge sensors with external active feedback bias