Title :
Advances toward high spectral resolution quantum X-ray calorimetry
Author :
Moseley, S.H. ; Kelley, R.L. ; Schoelkopf, R.J. ; Szymkowiak, A.E. ; McCammon, D. ; Zhang, J.
Author_Institution :
NASA/Goddard Space Flight Center, Greenbelt, MD, USA
Abstract :
Thermal detectors for X-ray spectroscopy combining high spectral resolution and quantum efficiency have been developed. These microcalorimeters measure the energy released in the absorption of a single photon by sensing the rise in temperature of a small absorbing structure. The ultimate energy resolution of such a device is limited by the thermodynamic power fluctuations in the thermal link between the calorimeter and isothermal bath and can in principle be made as low as 1 eV. The performance of a real device is degraded due to noise contributions such as excess 1/f noise in the thermistor and incomplete conversion of energy into phonons. The authors report some recent advances in thermometry, X-ray absorption and thermalization, fabrication techniques, and detector optimization in the presence of noise. These improvements have resulted in a device with a spectral resolution of 17 eV FWHM, measured at 6 keV.<>
Keywords :
X-ray detection and measurement; energy loss of particles; temperature measurement; thermistors; 1 eV; X-ray spectroscopy; absorption; excess 1/f noise; high spectral resolution quantum X-ray calorimetry; isothermal bath; microcalorimeters; noise contributions; quantum efficiency; single photon; thermal link; thermistor; thermodynamic power fluctuations; Calorimetry; Electromagnetic wave absorption; Energy measurement; Energy resolution; Fluctuations; Spectroscopy; Temperature sensors; Thermodynamics; X-ray detection; X-ray detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
