Details
University and Training Reactors |
Utilisation of the Research Reactor TRIGA Mainz |
G. Hampel, K. Eberhardt
Johannes Gutenberg University Mainz, Mainz, Germany
Abstract
The TRIGA Mark II reactor of the University of Mainz can be operated in the steady state mode with thermal powers up to a maximum of 100 kW and in the pulse mode with a maximum peak power of 250 MW. So far, more than 17 000 pulses have been performed. For irradiations the TRIGA Mainz has a central experimental tube, three pneumatic transfer systems and a rotary specimen rack. In addition, the TRIGA Mainz includes four horizontal beam ports and a graphite thermal column which provides a source of well-thermalised neutrons. A broad spectrum of commercial applications, scientific research and training can be executed. For education and training various courses in nuclear and radiochemistry, radiation protection, reactor operation and physics are held for scientists, advanced students, teachers, engineers and technicians. Isotope production and Neutron Activation Analysis (NAA) are applied in in-core positions for different applications. NAA in Mainz is focused to determine trace elements in different materials such as in archaeometry, forensics, biology and technical materials including semiconductors for photovoltaics. The beam ports and the thermal column are used for commercial as well as for special basic and applied research in medicine, biology, chemistry and physics. Experiments are in preparation to determine the fundamental neutron properties with very high precision using ultra cold neutrons (UCN) produced at the tangential beam port. A second source is under development at the radial piercing beam port. Another experiment under development is the determination of ground-state properties of radioactive nuclei with very high precision using a penning trap and collinear laser spectroscopy. For many years fast chemical separation procedures combining a gas-jet transport system installed in one beam tube with either continuous or discontinuous chemical separation are carried out. In addition the thermal column of the reactor is also used for medical and biological experiments: A project is in progress where patients with liver metastases will be treated, similar to the successful application at the TRIGA Pavia (Italy). Also cell cultures are irradiated in the thermal column at different neuron fluxes. Due to its experimental programme the TRIGA Mainz will be in operation until at least 2020.
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Presentation |
Vienna, Austria, 28 June–2 July 2010
IAEA-TM-38728
© IAEA, 2013
Produced by the IAEA in Austria
July 2013
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