Research field characteristics
The doctoral program in Nuclear Engineering prepares graduates for independent creative research in a wide range of fundamental scientific areas of nuclear and particle physics and their industrial applications, especially in nuclear energetics and radiation detection.
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The doctoral course in Nuclear Engineering is offered by the Department of Nuclear Reactors, the Department of Dosimetry and Application of Ionizing Radiation, and the Department of Physics.
- The area of Reactor Studies covers reactor physics, applied and experimental nuclear physics, neutron physics, nuclear safety and the relation between nuclear energy and the environment, computational methods and methods of mathematical modeling. It also addresses the issues of control systems, accelerator-driven transmutation technologies, and the physics and technology of nuclear fusion.
- The aim of the Physics and Technology of Thermonuclear Fusion course is to educate experts concerned with the controlled release of nuclear energy based on the fusion of light isotopes of hydrogen.
- Dosimetry and Applications of Ionizing Radiation is focused on radiation physics, dosimetry and microdosimetry, the interaction of radiation, radioanalytical methods, radiation technology, medical and engineering applications of radionuclides and ionizing radiation, computational and modeling methods, radiation protection and radiation monitoring, and protection of the environment.
- In the Experimental Nuclear and Particle Physics, experimental physicists are trained in particle physics and nuclear physics, in particular in the issues of construction, operation and evaluation of data from particle detectors in international experiments, as well as in developing their skills in related areas of theoretical physics, particularly with respect to the phenomenology of strongly interacting elementary particles and a description of the quark-gluon plasma.
This Ph.D. program is offered in cooperation with national and international academic and scientific institutions, i.e. Faculty of Electrical Engineering of the Czech Technical University (FEE CTU), Czech Academy of Sciences (CAS) - Institute of Physics (IP), Nuclear Physics Institute (NPI), and Institute of Plasma Physics (IPP), as well as Nuclear Research Institute Řež (NRI Řež), the European Organization for Nuclear Research (CERN), Brookhaven National Laboratory (BNL), Fermi National Accelerator Laboratory (FNAL), and GSI Helmholtz Zentrum für Schwerionenforschung, Darmstadt. Participation of students (internships, data collection) in research at partner institutions is very common.
The Ph.D. course is linked to research activities of individual departments and institutions and their grants.
Ph.D. graduates in Nuclear Engineering find positions both as academics at universities, scientific and research institutions and as professional staff in industry, health care institutions and in the state administration bodies, e.g. the National Radiation Protection Institute (NRPI), SONS (an organization assisting the visually impaired), and wherever professionals focused on modern physics and ionizing radiation are needed. A high-quality theoretical background and general knowledge in the respective field makes candidates quickly adaptable to facing problems of a very wide range. Therefore, they are ready to respond to the challenges of an interdisciplinary nature in international research teams.
- Application form
- Curriculum vitae
- Notarized copy of certificate and Transcript of records
- Admission fee 650,- CZK (approx. 25€)
- A list of published works and other results of professional activity; any form of their assessment would be appreciated
About the School
Czech Technical University in Prague is the oldest technical university in Europe, founded in 1707 and is currently a leading technical research university within the region and in the Prague Research ... Read More