Solid Angle Computations for a Circular Radiator and a Circular Detector

Konijn, J; Tollander, B

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Solid Angle Computations for a Circular Radiator and a Circular Detector

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Abstract

The problem of particle detection, when using an isotropic neutron point source at different distances from a circular target or a radioactive source as seen by a circular detector, e. g. a solid state counter, is dealt with. Tables are given for different distances of the source when the reaction at the target has an isotropic or a cosine angular distribution in the laboratory system.

Authors:

Konijn, J; Tollander, B

Publication Date:

Feb 15, 1963

Product Type:

Technical Report

Report Number:

AE-101

Resource Relation:

Other Information: 1 ref., 1 fig., 4 tabs.

Subject:

46 INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY; INCIDENCE ANGLE; SURFACE AREA; EFFICIENCY; RADIATION DETECTORS; APERTURES; ANALYTICAL SOLUTION

OSTI ID:

20930850

Research Organizations:

AB Atomenergi, Nykoeping (Sweden)

Country of Origin:

Sweden

Language:

English

Other Identifying Numbers:

TRN: SE0708276

Availability:

Commercial reproduction prohibited; OSTI as DE20930850

Submitting Site:

SWDN

Size:

26 pages

Announcement Date:

Oct 01, 2007

Citation Formats

Konijn, J, and Tollander, B. Solid Angle Computations for a Circular Radiator and a Circular Detector. Sweden: N. p., 1963. Web.

Konijn, J, & Tollander, B. Solid Angle Computations for a Circular Radiator and a Circular Detector. Sweden.

Konijn, J, and Tollander, B. 1963. "Solid Angle Computations for a Circular Radiator and a Circular Detector." Sweden.

@misc{etde_20930850,
title = {Solid Angle Computations for a Circular Radiator and a Circular Detector}
author = {Konijn, J, and Tollander, B}
abstractNote = {The problem of particle detection, when using an isotropic neutron point source at different distances from a circular target or a radioactive source as seen by a circular detector, e. g. a solid state counter, is dealt with. Tables are given for different distances of the source when the reaction at the target has an isotropic or a cosine angular distribution in the laboratory system.}
place = {Sweden}
year = {1963}
month = {Feb}
}

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