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National Research Nuclear University MEPhI (Moscow Engineering Physics Institute)
Nuclear Physics Methods of Solar-Terrestrial Physics (Taught)
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Nuclear Physics Methods of Solar-Terrestrial Physics (Taught)
31 Kashirskoe shosse, Moscow , RU, Moscow, Russia
# =78QS Subject Rankings
24 monthsProgram duration
Physics and AstronomyMain Subject Area
Program overview
Main Subject
Physics and Astronomy
Degree
Other
Study Level
Masters
Program overview
Main Subject
Physics and Astronomy
Degree
Other
Study Level
Masters
Admission requirements
Exam Scores
Tuition fee and scholarships
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Today the MEPhI is one of the leading research universities with well–established academic schooling in the Russian Federation which trains post-graduates, holders of Magister’s degree, Bachelor’s degree as well as Specialists in the most significant areas of fundamental and applied science and modern technologies both for the Russian Federation and foreign countries. On the whole the MEPhI provides training in a vast variety of areas: Nuclear Engineering and Nuclear Technologies, Engineering & IT, Life Sciences, Natural Sciences and Social Sciences with Nuclear Physics, Arts & Humanities being the key specialization of the University.
The Strategic Academic Units (StrAU) have collaborate with various industrial and academic partners, including: Rosatom, CERN, Rostech, Kurchatov Institute, the IAEA, etc. Many of the StrAUs also energize megaprojects of our time, including the ITER fusion reactor, currently under construction in France, as well as ALICE and ATLAS high-energy physics experiments at CERN in Switzerland.
Strategic Academic Units include:
Engineering and Technology (3)
Energy-efficient, additive and hybrid laser technologies
Mathematical Modeling and Software Engineering for Computers and Computer Networks – Information Technologies for Cybernetic Systems Development
Methods of nonlinear dynamics and mathematical modelling
Nanoelectronics, spintronics and photonics
Nuclear engineering
Optical Information Technology
Plasma Physics and Plasma Technologies
Solid State Physics and Photonics
Theoretical Physics
Life Sciences and Medicine (3)
Bionanotechnologies
Others (3)
Bionanotechnologies
Condensed matter physics
Controlled fusion and plasma technologies
General medicine
Mathematical Modeling and Software Engineering for Computers and Computer Networks – Information Technologies for Cybernetic Systems Development
Methods of Nonlinear Dynamics and Mathematical Modeling
Nanoelectronics, spintronics and Photonics
Nuclear Technologies
Physics of kinetics phenomena
Radiation Technologies in Life Sciences
Today the MEPhI is one of the leading research universities with well–established academic schooling in the Russian Federation which trains post-graduates, holders of Magister’s degree, Bachelor’s degree as well as Specialists in the most significant areas of fundamental and applied science and modern technologies both for the Russian Federation and foreign countries. On the whole the MEPhI provides training in a vast variety of areas: Nuclear Engineering and Nuclear Technologies, Engineering & IT, Life Sciences, Natural Sciences and Social Sciences with Nuclear Physics, Arts & Humanities being the key specialization of the University.
The Strategic Academic Units (StrAU) have collaborate with various industrial and academic partners, including: Rosatom, CERN, Rostech, Kurchatov Institute, the IAEA, etc. Many of the StrAUs also energize megaprojects of our time, including the ITER fusion reactor, currently under construction in France, as well as ALICE and ATLAS high-energy physics experiments at CERN in Switzerland.
Strategic Academic Units include:
Engineering and Technology (3)
Advanced Semiconductor Lasers and Technology (Taught)
Biomedical Nanotechnology (Taught)
Biomedical Photonics (Taught)
Carbon Photonics (Taught)
Elementary Particle Physics and Cosmology (Taught)
Femtosecond Laser Physics and Technology (Taught)
Fundamental Research in Particle Physics (Taught)
Information Security and Intelligence Analysis for Financial Monitoring (Taught)
Management in Nuclear Industry (Taught)
Materials Design and Engineering (Taught)
Modern Problems of Software Engineering (Taught)
Nanobioengineering (Taught)
Nanoelectronics, Spintronics and Photonics (Taught)
Nanotheranostics (Taught)
Nuclear Power Engineering (Taught)
Nuclear engineering (Taught)
Natural Sciences (3)
Mathematical Physics and Mathematical Modeling (Taught)
Nuclear Physics Methods of Solar-Terrestrial Physics (Taught)
Nuclear Physics and Cosmic Physics (Taught)
Physics of High and Ultra High Energy Particles (Taught)
Others (3)
Advanced semiconductor lasers and technology
Biomedical nanotechnologies
Condensed matter physics
Controlled fusion and plasma technologies
High energy physics
Information-Measuring and Control Systems
Instrumentation and methods of experimental physics (Modern detectors for cosmic irradiation)
Laser Physics
Materials design and engineering
Modern Problems of Software Engineering
Nanoelectronics, Spintronics and Photonics
Nuclear Engineering
Nuclear Power Plants
Nuclear and particle physics
Nuclear power installations, including design, operation and decommissioning
Nuclear, Heat and Renewable Energy and Related Technologies
Physics in nuclear medicine: Medical physics of radiation therapy and radiology; Nuclear medicine
Physics of Charge Particles & Accelerator Engineering
Physics of Extreme States of Matter (Condensed matter physics)
Plasma Physics
Powder Metallurgy and Composite Materials
Theoretical physics
Thermophysics and theoretical heat engineering