1954
DOI: 10.1016/0891-3919(54)90003-0
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Fission chambers for neutron detection

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Cited by 5 publications
(2 citation statements)
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“…The chief disadvantage of fission counters for flux measurements is their low sensitivity, and considerable effort has been devoted to producing counters of the highest sensitivity practical. The spiral type of fission counter has been described by Rossi and Staub (1949), a nesting-cylinder type by Aves, Barnes, and MacKenzie (1954) and a recent multiple-plate type by Allen and Fergu¬ son (1955a). In this last counter a weight of 1.5 mg/cm2 of U235 gave an acceptable plateau which indicates approxi¬ mately the limit in coating individual plates.…”
Section: Fast Neutron Fluxmentioning
confidence: 94%
“…The chief disadvantage of fission counters for flux measurements is their low sensitivity, and considerable effort has been devoted to producing counters of the highest sensitivity practical. The spiral type of fission counter has been described by Rossi and Staub (1949), a nesting-cylinder type by Aves, Barnes, and MacKenzie (1954) and a recent multiple-plate type by Allen and Fergu¬ son (1955a). In this last counter a weight of 1.5 mg/cm2 of U235 gave an acceptable plateau which indicates approxi¬ mately the limit in coating individual plates.…”
Section: Fast Neutron Fluxmentioning
confidence: 94%
“…Since the target foil must be sufficiently thin to allow the fission fragments to escape, fission chambers are limited to a coating thickness of a 2-3 mg/cm 2 . 1 The small amount of fissionable material that can be applied to a target foil limits the detector's efficiency, so fission chambers require long measurement times in low-neutron-flux environments. The hundreds of nanoseconds required for the ionization chamber to collect charged particles also make fission chambers prone to pile-up in high-neutron-flux environments.…”
Section: Introductionmentioning
confidence: 99%