Add to ORKGWe have produced a variety of superconducting transition edge sensor array designs for microcalorimetric detection of x-rays. Designs include kilopixel scale arrays of relatively small sensors (approximately 75 micron pitch) atop a thick metal heat sinking layer as well as arrays of membrane-isolated devices on 250 micron and up to 600 micron pitch. We discuss fabrication and performance of microstripline wiring at the small scales achieved to date. We also address fabrication issues with reduction of absorber contact area in small devices
Future X-ray Astronomy missions, such as Constellation-X (USA) and the X-ray Evolving Universe Spect...
We are developing kilopixel arrays of TES microcalorimeters to enable high-resolution x-ray imaging ...
We have measured and characterized the thermal crosstalk in two different arrays of transition-edge ...
We develop superconducting transition-edge sensor (TES) microcalorimeter focal planes for versatilit...
We have developed large-format, close-packed X-ray microcalorimeter arrays fabricated on solid subst...
Requirements for focal planes for x-ray astrophysics vary widely depending on the needs of the scien...
We present measurements of high fill-factor arrays of superconducting transition-edge x-ray microcal...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
Future X-ray Astronomy missions, such as Constellation-X (USA) and the X-ray Evolving Universe Spect...
X-ray microcalorimeters using transition-edge sensors (TES) show great promise for use in astronomic...
We have developed transition-edge sensor (TES) microcalorimeter arrays with high count-rate capabili...
Having already developed a transition-edge-sensor (TES) microcalorimeter design that enables uniform...
Future development trajectories for imaging x-ray spectrometers based on microcalorimeters. Since th...
Future X-ray Astronomy missions, such as Constellation-X (USA) and the X-ray Evolving Universe Spect...
We are developing kilopixel arrays of TES microcalorimeters to enable high-resolution x-ray imaging ...
We have measured and characterized the thermal crosstalk in two different arrays of transition-edge ...
We develop superconducting transition-edge sensor (TES) microcalorimeter focal planes for versatilit...
We have developed large-format, close-packed X-ray microcalorimeter arrays fabricated on solid subst...
Requirements for focal planes for x-ray astrophysics vary widely depending on the needs of the scien...
We present measurements of high fill-factor arrays of superconducting transition-edge x-ray microcal...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
The development of an array of voltage biased superconducting transition edge microcalorimeters is d...
Future X-ray Astronomy missions, such as Constellation-X (USA) and the X-ray Evolving Universe Spect...
X-ray microcalorimeters using transition-edge sensors (TES) show great promise for use in astronomic...
We have developed transition-edge sensor (TES) microcalorimeter arrays with high count-rate capabili...
Having already developed a transition-edge-sensor (TES) microcalorimeter design that enables uniform...
Future development trajectories for imaging x-ray spectrometers based on microcalorimeters. Since th...
Future X-ray Astronomy missions, such as Constellation-X (USA) and the X-ray Evolving Universe Spect...
We are developing kilopixel arrays of TES microcalorimeters to enable high-resolution x-ray imaging ...
We have measured and characterized the thermal crosstalk in two different arrays of transition-edge ...