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Study Program

The study program is designed according to international standards so that its content is a state of the art in terms of the type of course content and the directions it leads.

The Solid State – Electronics – Nanotechnology direction provides a unified and dynamic educational and research framework that combines the first principles for theoretical study design, material characterization, device creation and exploitation in technological applications focusing on micro and nano electronics and nanotechnology. The laboratory equipment and the teaching and research experience of the teaching staff guarantee the result. Our graduates will have the necessary qualifications to successfully pursue postgraduate studies in Nanoelectronics and Nanotechnology science programs as well as to work in high-tech Electronics Optoelectronics, Nanotechnology.

Following the direction of Nonlinear Dynamics and Complexity is that there is a more modern and innovative physics curriculum in the world with a strong cross-disciplinary nature such as Economics, Social Physics, Forecasting time series, Artificial Intelligence, the quantum nature of Information, the applications of chaos theory. Our graduates will have the necessary qualifications to successfully pursue postgraduate studies in areas such as Data analysis, Financial forecasting, Machine learning but can work in related companies or organizations.

Finally the Physics and Energy Applications direction provides the necessary knowledge on renewable energy, medical physics, nuclear technology and biomechanics. Our graduates will have the necessary qualifications to successfully pursue postgraduate studies in Energy, Medical Physics, Environment programs. They will also have the necessary background to work in Power Generation and Distribution companies, in Hospitals, Diagnostic Centers and industries.

(M=mandatory, S=Selective, TH=theory, L=Lab, DS=Direction Selective, DM=Direction Mandatory)

1st Semester
3rd Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Differential Equations M TH 5 8
Electromagnetism I M TH 4 6
Thermodynamics M TH 4 6
Atomic Molecular Physics M TH 4 5
Mathematical Methods for Physics M TH 4 5
21 30
4th Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Electrical Circuit Laboratory M L 4 5
Wave-Optics M TH 4 6
Electromagnetism II M TH 4 6
Electronics M TH 4 5
Total Required 16 22
Physics Teaching S TH 3 4
History and Evolution of Ideas in Physics S TH 3 4
Research Methodology S TH 3 4
Environmental Education S TH 3 4
Metrology and Measurement Systems S TH 3 4
Foreign Language I (ENGLISH / FRENCH) S TH 3 4
22 30
5th Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Theoretical Engineering I M TH 3 5
Electronics Lab M L 3 4
Optical Lab M L 3 4
Quantum Mechanics I M TH 4 5
Physical Solid State M TH 4 6
Total Required 17 24
Basic telemetry applications S TH 3 3
New Technologies in Education and Teaching Online Science Courses S TH 3 3
Applied Physics Teaching S TH 3 3
Fluid Engineering S TH 3 3
Foreign Language 2 (ENGLISH / FRENCH) S TH 3 3
23 30
6th Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Nuclear Physics M TH 4 6
Economic Physics M TH 4 6
Material Science and Technology M TH 4 6
Statistical Physics M TH 4 6
Theoretical Engineering II – Relevance M TH 4 6
20 30
7th Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Astronomy – Astrophysics M TH 4 6
Nuclear-Physical Laboratory M L 4 5
SOLID STATUS – ELECTRONIC AND NANOTECHNOLOGY 3 OUT OF 5 OPTIONS
Electronic Circuits DM TH 5 7
Nanotubes and Applications DS TH 4 6
Material Characterization DS TH 4 6
Thin Film Physics and Technology DS TH 4 6
Nonlinear circuits and systems DS TH 4 6
Quantum Mechanics II DS TH 4 6
NON-LINE DYNAMIC AND COMPLEXITY DIRECTION 3 OUT OF 4 OPTIONS
Nonlinear dynamics – Chaos Theory DM TH 5 7
Introduction to Complexity DS TH 4 6
Introduction to Neural Networks DS TH 4 6
Computational Physics and its Applications DS TH 4 6
Theory of Networks and Graphs DS TH 4 6
PHYSICAL AND ENERGY APPLICATION DIRECTION 3 OUT 5 OPTIONS
Renewable Energy DM TH 5 7
Nuclear Technology DS TH 4 6
Radiation physics and their applications DS TH 4 6
Energy System Modeling DS TH 4 6
Applied Engineering DS TH 4 6
Applied Physics DS TH 4 6
8th Semester
TITLE TYPE TYPE TEACHING HOURS ECTS
Graduate Thesis S
SOLID STATUS – ELECTRONIC AND NANOTECHNOLOGY 3 FROM 5 OPTIONS
Nanoelectronics DM TH 6 9
Designing new materials and layouts DS TH 5 7
Photonics and Applications DS TH 5 7
LASER Physics DS TH 5 7
Laboratory of Electronic Circuits and Digital Systems DS TH 5 7
Digital circuits and systems DS TH 5 7
NON-LINE DYNAMIC AND COMPLEXITY DIRECTION 3 OUT OF 4 OPTIONS 30
Chaos systems evaluation DM TH 6 9
Complex Systems Modeling with Special Software DS TH 5 7
Genetic Algorithms DS TH 5 7
Mechanical Learning DS TH 5 7
Quantum Theory of Information DS TH 5 7
PHYSICAL AND ENERGY APPLICATION DIRECTION 3 FROM 5 OPTIONS 30
Telecommunication Systems DM TH 6 9
Bioengineering DS TH 5 7
Energy and RES Production DS L 5 7
Dosimetry and Radiation Protection DS L 5 7
Medical Physics DS TH 5 7
Meteorology DS TH 5 7

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