Title :
Silicon detector system for high rate EXAFS applications
Author :
Pullia, A. ; Kraner, H.W. ; Siddons, D.P. ; Furenlid, L.R. ; Bertuccio, G.
Author_Institution :
Brookhaven Nat. Lab., Upton, NY, USA
fDate :
8/1/1995 12:00:00 AM
Abstract :
A multichannel silicon pad detector for EXAFS (Extended X-ray Absorption Fine Structure) applications has been designed and built. The X-ray spectroscopic measurements demonstrate that an adequate energy resolution of 230 eV FWHM (corresponding to 27 rms electrons in silicon) can be achieved reliably at -35°C. A resolution of 190 eV FWHM (corresponding to 22 rms electrons) has been obtained from individual pads at -35°C. At room temperature (25°C) an average energy resolution of 380 eV FWHM is achieved and a resolution of 350 eV FWHM (41 rms electrons) is the best performance. A simple cooling system constituted of Peltier cells is sufficient to reduce the reverse currents of the pads and their related shot noise contribution, in order to achieve resolutions better than 300 eV FWHM which is adequate for the EXAFS applications
Keywords :
EXAFS; X-ray detection; X-ray spectrometers; silicon radiation detectors; -35 C; 230 to 380 eV; EXAFS; Extended X-ray Absorption Fine Structure; Peltier cells; Si; X-ray spectroscopic measurements; cooling system; energy resolution; multichannel silicon pad detector; shot noise contribution; Cooling; Electromagnetic wave absorption; Electrons; Energy measurement; Energy resolution; Silicon; Spectroscopy; Temperature; X-ray detection; X-ray detectors;
Journal_Title :
Nuclear Science, IEEE Transactions on
