Scientific interests
- Nuclear physics
- Physics of elementary particles
- Theoretical astrophysics
- Physics of compact stars with quark structure
Education
Institution
Yerevan State University, Joint Institute for Nuclear Research in Dubna
Faculty
Chair of Theretical Physics
Date
-
Degree name
PhD student
Institution
Yerevan State University
Faculty
Faculty of Physics
Date
-
Degree name
Qualified specialist
Scientific Rank/degree
Institution
Yerevan State University
Date
1982
Degree name
Associate professor
Specialty
Physico-mathematical sciences
Institution
Yerevan State University
Date
1980
Degree name
Candidate
Specialty
Physico-mathematical sciences
Scientific Supervisor
Tarasov Alexander Vasilevich
Research Topic
Multiple collision effects of leading particles in the hadron-nucleus interactions
Language skills
Հայերեն
Русский
English
Work experience
Institution
Yerevan State University, Chair of applied Electrodynamics and Modeling
Period of time
Rank/degree
Associate Professor
Institution
Yerevan State University, Chair of Wave Processes theory and Physics
Period of time
-
Rank/degree
Head of Chair
Institution
Yerevan State University, Chair of Wave Processes theory and Physics
Period of time
-
Rank/degree
Associate Professor
Institution
Yerevan State University, Department of implementation of scientific and technical works
Period of time
-
Rank/degree
Group Leader
Institution
Yerevan State University, Department of Scientific Research
Period of time
-
Rank/degree
Senior Engineer
Institution
Yerevan State University, Chair of Theoretical Physics
Period of time
-
Rank/degree
PHD Student
Institution
Yerevan State University, Chair of Theoretical Physics
Period of time
-
Rank/degree
Assistant Professor
Publications
Conference
Neutrino oscillations effects on the thermodynamic properties of hot electrically neutral quark matter in beta-equilibrium
Conference
Thermodynamic Properties of Hot Q Equilibrium Hadronic and Quark Matter in the Neutrino-Trapped Regime
Conference
Numerical Modeling of Thermodynamic Parameters for Hot Neutron Star Matter in Neutrino-Trapped Regime
