Title :
A Fast Analogue Front End for a Diamond Radiation Spectrometer
Author :
Fisher-Levine, Merlin ; Velthuis, Jaap ; Cussans, D. ; Nash, Stephen
Author_Institution :
HH Wills Phys. Lab., Univ. of Bristol, Bristol, UK
Abstract :
There is a need for radiation spectrometers that are able to work in sustained high-count-rate environments. This work presents the results obtained with a discrete component charge-sensitive amplifier and shaper combination designed to be the front end for a diamond spectrometer. A system with a rise time of 2.12ns, FWHM of 3.75ns and an ENC of 293e- RMS was developed and a high gain of 147 mV/fC was achieved with return to baseline within 20 ns. Instantaneous count rates of 50MHz and sustained count-rates of 20MHz were made possible through the use of a fast preamplifier and differentiating shaper.
Keywords :
diamond; elemental semiconductors; particle spectrometers; preamplifiers; semiconductor counters; wide band gap semiconductors; C; diamond radiation spectrometer; differentiating shaper; discrete component charge-sensitive amplifier; fast analogue front end; fast preamplifier; Detectors; Diamonds; Energy resolution; HEMTs; MODFETs; Noise; Silicon; Charge sensitive amplifier; cVD diamond; fast spectroscopy; high speed amplifier; radiation;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2013.2280972
