The course constitutes a practical introduction to fundamental principles of detection of ionizing radiation (IR), interaction of IR with matter, and functionality and settings of particular types of detectors and detection systems.

1. Registration to subject „Detection of ionizing radiation“

2. Exam of „NUclear chemistry 2“

3. Practical exercises in radiochemistry techniques

4. Entrance test

1. Plateau and dead time measurement of the GM and scintillation detectors.

2. Measurement optimisation in gamma scintillation counting.

3. Study of the statistic character of radioactive decay.

4. Liquid scintillation counting 1+2 - measurement of alpha na beta emitters.

5. Methods of neutrons measurement.

6. Dose and dose rate determination with Fricke dosimeter

7. Determination of radionuclides in environmental samples with high resolution gamma-ray spectrometry.

8. Alpha spectrometry

Knowledge:

The students will gain the knowledge of the principles of ionising radiation detection.

Skills and competencies:

The students will gain the skills and competencies necessary for proper selection and setting of a measurement set-up for various types and energies of radiation including the statistical evaluation of the results of measurements.

Key references:

1. Atomic Act 263/2016 Coll. and related legislation (namely Decree of the SÚJB Nos. 409 and 422/2016 Coll.)

2. G.F. Knoll: Radiation Detection and Measurement, J. Willey & Sons, New York, 1984.

3. W.H. Tait: Radiation detection, Butterworths, 1980

Recommended references:

1. Act No. 18/1997 Coll., on Peaceful Utilisation of Nuclear Energy and Ionising Radiation (the Atomic Act) and on Amendments and Additions to Related Acts.

2. W.D.Loveland, D.J. Morrissey, G.T. Seaborg: Modern nuclear chemistry, John Wiley & Sons, New Jersey, 2006.

Media and tools:

1. Radiometric laboratory