2001
DOI: 10.1016/s0168-9002(01)00179-6
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Method for effective dead time measurement in counting systems

Abstract: The counting losses introduced by the dead time of a counting system are a limiting factor in counting measurements. The purpose of this work is to report an efficient method for the measurement of the effective dead time of a counting system and to characterize its dead time behavior, providing a way to investigate each experimental situation. The method, which we designate as Delayed and Mixed Pulses method, is based on the artificial piling-up of detector pulses with electronic pulses delayed by a specific … Show more

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Cited by 9 publications
(1 citation statement)
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“…The intensity of the beam was measured by counting the number of X-ray photons absorbed in the gas with a single channel analyser and an electronic counter. Since the counting rates were fairly high (about ) dead time corrections had to be made with a dead time paralysable model [11], [17]. Corrections for losses due to the escape of Ar L-and Xe M-fluorescence X-rays were also made since X-ray spectra were obtained during this second step using a multichannel analyser.…”
Section: Experimental Technique For Measurement Of W-values For Amentioning
confidence: 99%
“…The intensity of the beam was measured by counting the number of X-ray photons absorbed in the gas with a single channel analyser and an electronic counter. Since the counting rates were fairly high (about ) dead time corrections had to be made with a dead time paralysable model [11], [17]. Corrections for losses due to the escape of Ar L-and Xe M-fluorescence X-rays were also made since X-ray spectra were obtained during this second step using a multichannel analyser.…”
Section: Experimental Technique For Measurement Of W-values For Amentioning
confidence: 99%