Radioanalytical Working Methods for Scientists Robert Schupfner
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Transcript Radioanalytical Working Methods for Scientists Robert Schupfner
Radioanalytical Working
Methods for Scientists
Robert Schupfner
Central Radionuclide Lab – URA-Lab
Summary
COURSE
Lecture room: H44
Time: 15:15 to 16:00
On Tuesday:
Time Table
Date
free
16.04.2013
23.04.2013
30.04.2013
07.05.2013
14.05.2013
21.05.2013
28.05.2013
04.06.2013
11.06.2013
18.06.2013
25.06.2013 Practical
02.07.2013 Practical
09.07.2013 Practical
16.07.2013 written test
What is the meaning of the term “Radio analysis”
There is a wide range of applications of radionuclides
The effects of ionizing radiation to human tissues can cause
severe damage and injuries for example cancer.
As a consequence every justified practices including handling
of radioactive substances must consider both: the benefit
and the risk.
Knowledge on radio analytical methods
What is the meaning of the term “Radio analysis”
Determination of the activity concentration or
the spatial distribution of radionuclides
detecting the ionizing radiation caused by
radioactive decay
Summary
A. Introduction
1. General Aspects
2. Unsealed Radioactive Substances
3. Sealed Radioactive Substances
4. Neutrons
Summary
B. Production of Radionuclides and Radiolabeled Compounds
1. Production in Nuclear Reactors
2. Production in Accelerators
3. Radionuclide Generators
4. Radiolabeled Compounds
Summary
C. Radioactivity
1. Stability of the Atomic Nucleus
2. Principles of the radioactive decay
3. Modes of Decay and Nuclear Radiation
Summary
D. Radiation Exposure
1. Effects of Ionizing Radiation on the Human Body
2. Terms of Dose
3. Radiation Exposure of Human
Summary
E. Legal Foundations of Radiation Protection
1. The double-sided character of radioactivity
2. The Development of the Radiation Protection Ordinance
3. The Radiation Protection Ordinance (RPO)
4. Important Content of the RPO
5. Protection of Individuals in Radiation Protection Areas
Summary
F. Methods of Detection of Nuclear Radiation
1. Single Nuclide Determination
2. Multi Nuclide Determination
3. Determination of Activity
4. Methods of Radiation Detection Measurement
5. Spectrometric Methods
6. Neutron Detectors
7. Spatially Resolving Devices
8. Isotopic Dilution Analysis
Summary
G. Laboratory Course
1. Contamination Monitoring
2. Properties of Nuclear Radiation
3. Rules of save handling of unsealed radioactive substances
Obligatory to persons being intended for performing tasks
within radiation protection areas of the Faculty of Chemistry and
Pharmacy of the University of Regensburg