Difference between revisions of "Gamma Spectroscopy Analysis"
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*Student Guide - [[Introduction to Gamma Radiation|Introduction to Gamma Radiation]]<br> | *Student Guide - [[Introduction to Gamma Radiation|Introduction to Gamma Radiation]]<br> | ||
*Student Guide - [[Gamma Spectroscopy and Detectors]] | *Student Guide - [[Gamma Spectroscopy and Detectors]] | ||
| − | *Student Guide - [[Yield in Neutron Activation and Nuclear Reactions]] | + | *Student Guide - [[Yield in Neutron Activation and Nuclear Reactions]] |
*Student Guide - [[Calibration of a gamma detector, how]] | *Student Guide - [[Calibration of a gamma detector, how]] | ||
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*Student Guide - [[Efficieny Calibration Curve]]<br> | *Student Guide - [[Efficieny Calibration Curve]]<br> | ||
| − | *Student Guide - | + | *Student Guide - [[Determination of Unknown Sample]] |
| − | *Student Guide - | + | *Student Guide - [[Summary of Gamma Spectroscopy Analysis]] |
'''Other''' | '''Other''' | ||
Revision as of 10:46, 27 June 2012
This lab exercise was developed for the UiO KJM 5911 course.
Learning Goals
You will learn about semiconductor detectors, in particual Ge-detectors. Such detectors are used for precise determination of the intensities and energy of the -quanta, commonly reffered to as spectroscopy. In the exercise we will not perform the actual analysis of spectra, but we will look into how the results can be used to identify an unknown sample, and how we can determine its absolute amount.
Explanation and Exercise Guide
Theory
- Student Guide - Introduction to Gamma Radiation
- Student Guide - Gamma Spectroscopy and Detectors
- Student Guide - Yield in Neutron Activation and Nuclear Reactions
- Student Guide - Calibration of a gamma detector, how
Experimental
- Student Guide - Efficieny Calibration Curve
- Student Guide - Determination of Unknown Sample
- Student Guide - Summary of Gamma Spectroscopy Analysis
Other
Equipment
Safety Aspects
