Method and device to overcome the pile-up effect in scintillation counters
First Claim
1. A method for overcoming the pile-up effect in a scintillation detection system which produces original electrical pulses in response to impinging radiation, comprising the steps of:
- (a) deriving from each original electrical pulse a low-pass filtered and delayed version thereof, said version having, with respect to its corresponding original electrical pulse, a delayed rising wavefront and an otherwise substantially similar waveform; and
(b) performing subtractions between original electrical pulses and corresponding delayed versions thereof, thereby forming differential output pulses.
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Abstract
To overcome the pile-up effect in a scintillation detection system, in particular in a scintillation counter, electrical pulses leaving the scintillation detection system are passed through a first and a second circuit line. In the first line, they are not changed with respect to shape and time. In the second line, they are corrected with a delay of the wave front rise. The output signal of the second line is subtracted from the output signal of the first line such that the contribution of any previous pulse that precedes by a short period of time is subtracted from the amplitude of each pulse. The delay is achieved, for example, by inserting a rapid amplifier in the first line, and a slow amplifier or a low pass filter in the second line. The subtraction is achieved e.g. by means of a rapid differential amplifier.
31 Citations
19 Claims
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1. A method for overcoming the pile-up effect in a scintillation detection system which produces original electrical pulses in response to impinging radiation, comprising the steps of:
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(a) deriving from each original electrical pulse a low-pass filtered and delayed version thereof, said version having, with respect to its corresponding original electrical pulse, a delayed rising wavefront and an otherwise substantially similar waveform; and (b) performing subtractions between original electrical pulses and corresponding delayed versions thereof, thereby forming differential output pulses. - View Dependent Claims (2, 3)
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4. A method for overcoming the pile-up effect in a scintillation detector systems which produces original electrical pulses in response to impinging radiation, comprising the following steps:
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(a) deriving delayed artificial square-wave pulses from said original pulses; and (b) performing subtractions between original pulses and corresponding artificial pulses, thereby forming differential output pulses.
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5. A device to overcome the pile-up effect in a scintillation detection system which delivers electrical pulses in response to impinging high energy radiation, comprising a ring circuit having
(a) a first branch for receiving and emitting said electrical pulses in real time, (b) a second branch including a delay member for receiving said electrical pulses and for issuing respective delayed electrical pulses, and (c) a differential amplifier having a first and a second input, said inputs being connected to the outputs of said first and second branches, respectively, and said differential amplifier having an output for issuing differential output signal pulses.
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12. A device to overcome the pile-up effect in a scintillation detection system which delivers electrical pulses in response to impinging high energy radiation, comprising a ring circuit having
(a) a first branch for receiving and issuing said electrical pulses in real time, (b) a second branch for forming a sample of the amplitude, delayed by a delay time, with respect to the original electrical pulses and including a deviator for generating respective exponential signals similar to the original electrical pulses, and (c) a differential amplifier having its inputs connected to said branches, respectively, said amplifier performing a subtraction operation between the original electrical pulses and said respective reformed signals and issuing differential output signal pulses.
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15. A device for detecting scintillation occurences, comprising in combination:
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(1) a scintillation crystal for being exposed to high energy radiation, said scintillation crystal emitting flashes of light when said high energy radiation impinges thereon, (2) at least one photomultiplier associated with said scintillation crystal for detecting said flashes of light, said photomultiplier generating electrical pulses in accordance with said flashes of light, and (3) electrical circuitry, comprising (a) a rapid amplifier for receiving said electrical pulses and for generating first amplified output signals, (b) an amplifying delay member for receiving said electrical pulses and for generating second amplified output signals, said second output signals having a delay with respect to said first output signals, and (c) a rapid differential amplifier for receiving said first and second output signals and for subtracting said second output signals from said first output signals, said rapid differential amplifier thereby generating a differential output signal. - View Dependent Claims (16, 17, 18, 19)
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Specification