Mercuric Iodide X-Ray and Gamma Ray Detectors for Astronomy

Abstract

The recent technological developments and availability of mercuric iodide detectors have made their application for astronomy a realistic prospect. Mercuric iodide because of its high resistivity and high density can be used in a variety of astronomy instrumentation where high spectral resolution, low noise levels, stability of performance, resistance to damage by charged particles and overall ruggedness are of critical importance. X-ray detectors with areas of 12 to 100 mm square and 1mm thickness have absorption efficiencies approaching 100% up to 60 keV. The spectral resolution of these detectors ranges from 400 eV to 600 eV at 5.9 keV depending on their area and the electronic noise theshold is less than l%0 keV Gamma ray detectors can be fabricated with dimensions of 25 mm x 25 mm x 3 mm. The spectral resolution of these detectors is less than 4% FWHM at energies of 662 keV Because of the high atomic numbers of the constituent elements of the mercuric iodide the full energy peak efficiency is higher than for any other available solid-state detector that makes measurements up to 10 MeV a possibility The operation of gamma ray detectors has been evaluated over a temperature range of -20 through + 55 degrees Celsius will only a very small shift in full energy peak observed over this temperature range. In combination with Cesium Iodide scintillators mercuric iodide detectors with 25 mm diameter dimensions can be used as photodetectors to replace bulky and fragile photomultiplier tubes. The spectral resolution of these detectors is less than 7% FWHM at 662 keV and the quantum efficiency is larger than 80% over the whole area of the detector. Details of the properties and perfomance of the mercuric iodide detectors will be presented and discussed.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 2001

Accession Number

ADA451644

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