Education
Institution
Yerevan State University
Faculty
Faculty of Physics
Date
-
Degree name
PhD student
Scientific Rank/degree
Institution
Yerevan State University
Date
2008
Degree name
Candidate
Specialty
Physico-mathematical sciences
Scientific Supervisor
A.A. Kirakosyan
Research Topic
Theoretical investigation of the effects of interdiffusion and external fields on electronic and optical properties of semiconductor nanostructures
Language skills
Հայերեն
English
Русский
Work experience
Institution
Center of Modeling and Simulations of Nanostructures
Period of time
Rank/degree
head of the research group
Institution
Research Laboratory of the Solid State Physics, Yerevan State University
Period of time
-
Rank/degree
Senior Researcher
Institution
Chair of Solid State Physics
Period of time
-
Rank/degree
Head of Educational Laboratory
Institution
Department of Medical Physics, Yerevan State Medical University after Mkhitar Hetatsi
Period of time
Rank/degree
Lecturer
Institution
Research Laboratory of the Solid State Physics, Yerevan State University
Period of time
-
Rank/degree
Researcher
Publications
Article
Rashba Spin-Orbit Coupling in a Two-Dimensional Quantum Ring Superlattice
Article
Electron capture processes in quantum dots due to one‐and two‐phonon assisted transitions: The role of optical phonon confinement
Article
Effect of phonon confinement on one- and two-polar optical phonon capture processes in quantum dots
Article
Effect of interdiffusion on electronic states of strain-free Gaussian-shaped double quantum ring superlattice
Article
Effect of interdiffusion on nonlinear intraband light absorption in Gaussian-shaped double quantum rings
Article
Effect of interdiffusion on band structure in GaAs/Ga1-xAlxAs quantum ring superlattices
Conference
Elastic Strain Distribution in one layer InAs/GaAs Quantum Ring Superlattice.
Conference
Electron capture processes in quantum dots due to one- and two-phonon assisted transitions: The role of optical phonon confinement.
Conference
Magneto-optical properties of arrayed structures of quantum dots and rings
Conference
Magneto-Optical Properties of Artificial Graphene Constructed of Cylindrical and Elliptical Quantum Dots