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About This Item

 

Full Description

Scope

ANSI N13.30-1996, American National Standard Performance Criteria for Radiobioassay

Purpose

The purpose of this standard is to provide a basis for the routine calibration and use of Ge semiconductor detectors for the measurement of gamma-ray emission rates and, thereeby, the activities of the radionuclides in a sample. It is intended for use by persons who have an understanding of the principles of Ge gamma-ray spectrometry and are responsible for the development of procedures for the calibration and use of such detectors. This standard is primarily intended for guidance on how to set up and use a system for routine analytical measurements. A typical gamma-ray spectrometer consists of a Ge detector with its liquid-nitrogen or mechanically refrigerated cryostat and preamplifier, detector bias supply, linear amplifier, analog-to-digital converter (ADC), multichannel storage of the spectrum, and data-readout devices. A radiation shield often surrounds the detector to reduce the counting rate from room-background radiation (see Annex E for shield construction guidelines). Photons (X and gamma rays) interact with the Ge crystal to produce electron-hole pairs. These electrons and holes are collected to produce a pulse whose amplitude is proportional to the energy deposited in the active volume of the Ge crystal. Each pulse is amplified, shaped, and sorted according to pulse height, using an ADC to produce a histogram showing, as a function of energy, the number of photons absorbed by the detector. After the accumulation of a sufficient number of pulses, the histogram displays a spectrum of one or more peaks with an approximately normal (Gaussian) distribution corresponding to photons that interacted with the detector.

Abstract

New IEEE Standard - Active. Methods for the calibration and use of germanium spectrometers for the measurement of gamma-ray energies and emission rates over the energy range from 59 keV to approximately 3000 keV, and for the calculation of source activities from these measurements, are established. Minimum requirements for automated peak finding are stated. Methods for measuring the full-energy peak efficiency with calibrated sources are given. Performance tests that ascertain the prop-er functioning of the Ge spectrometer and evaluate the limitations of the algorithms used for locating and fitting single and multiple peaks are described. Methods for the measurement of, and the correction for pulse pileup are suggested. Techniques are recommended for the inspection of spec-tral- analysis results for large errors resulting from summing of cascade gamma rays in the detector. Suggestions are provided for the establishment of data libraries for radionuclide identification, de-cay corrections, and the conversion of gamma-ray rates to decay rates.
 

Document History

  1. IEEE/ANSI N42.14-1999

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    American National Standard for Calibration and Use of Germanium Spectrometers for the Measurement of Gamma-Ray Emission Rates of Radionuclides

    • Most Recent
  2. IEEE N42.14-1991


    American National Standard Calibration and Use of Germanium Spectrometers for the Measurement of Gamma-Ray Emission Rates of Radionuclides

    • Historical Version
  3. IEEE/ANSI N42.14-1978


    American National Standard Calibration and Usage of Germanium Detectors for Measurement of Gamma-Ray Emission of Radionuclides

    • Historical Version