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 time interval. It is applicable to the measurement of the effective dead time of a counting system, including both pile-up effects and the dead time characteristics of the elements of the counting chain. With counting systems relying o...
An overview is presented on recent progress in the field of nuclear counting statistics; theoretical...
This study presents a new dead-time measurement method using the gamma attenuation law and generaliz...
The effect of dead-time and pile-up in counting experiments may become a significant source of uncer...
Since the early forties, researchers from around the world have been studying the phenomenon of dead...
Since the early forties, researchers from around the world have been studying the phenomenon of dead...
Count loss through a cascade of pile-up and dead time is studied. Time interval density distribution...
This research is focused on dead time and the subsequent count loss estimation in radiation detectio...
High speed electrical counting may in many situations lead to large dead-time corrections. The corre...
Pile-up effects due to the overlap of signals within the system dead-time () influence the counting ...
Nuclear counting is affected by pulse pileup and system dead time which induce rate-related count lo...
Dead-time losses are well recognized and studied drawbacks in counting and spectroscopic systems. In...
International audienceDead-time correction formulae are established in the general case of superimpo...
The subject of this paper is the investigation of the effect of the dead time on the statistics of t...
Every radiation counting system exhibits a characteristic pulse resolving time (dead time) that is r...
New experimental technique based on well known decaying source method is presented to measure the pa...
An overview is presented on recent progress in the field of nuclear counting statistics; theoretical...
This study presents a new dead-time measurement method using the gamma attenuation law and generaliz...
The effect of dead-time and pile-up in counting experiments may become a significant source of uncer...
Since the early forties, researchers from around the world have been studying the phenomenon of dead...
Since the early forties, researchers from around the world have been studying the phenomenon of dead...
Count loss through a cascade of pile-up and dead time is studied. Time interval density distribution...
This research is focused on dead time and the subsequent count loss estimation in radiation detectio...
High speed electrical counting may in many situations lead to large dead-time corrections. The corre...
Pile-up effects due to the overlap of signals within the system dead-time () influence the counting ...
Nuclear counting is affected by pulse pileup and system dead time which induce rate-related count lo...
Dead-time losses are well recognized and studied drawbacks in counting and spectroscopic systems. In...
International audienceDead-time correction formulae are established in the general case of superimpo...
The subject of this paper is the investigation of the effect of the dead time on the statistics of t...
Every radiation counting system exhibits a characteristic pulse resolving time (dead time) that is r...
New experimental technique based on well known decaying source method is presented to measure the pa...
An overview is presented on recent progress in the field of nuclear counting statistics; theoretical...
This study presents a new dead-time measurement method using the gamma attenuation law and generaliz...
The effect of dead-time and pile-up in counting experiments may become a significant source of uncer...