6533b7d5fe1ef96bd1263a98
RESEARCH PRODUCT
Geometric efficiency for a parallel-surface source and detector system with at least one axisymmetric surface
John T. Conwaysubject
PhysicsSurface (mathematics)Nuclear and High Energy PhysicsMathematical analysisDetectorPolygonSolid angleRotational symmetryTrigonometric functionsElliptic integralAxial symmetryInstrumentationdescription
Abstract An exact and numerically friendly method is given to calculate the geometric efficiency G of a planar radiation source and cosine detector system. Either the source or the detector, but not necessarily both, must have axial symmetry. For two non-coaxial disks the results are in exact agreement with a recent generalization of Ruby's formula for G. Detailed formulas and sample numerical results are given for a disk combined with rectangles and triangles. A disk and a general polygon can be solved by dividing the polygon into triangles. The method can also be applied to electrical inductance calculations and a solution recently given for the inductance of circular and elliptic loops can be directly applied to the corresponding source/detector calculation. All formulas give G = 0.5 exactly in the limit of a very large detector.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2007-12-01 | Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment |