Mihály Benedict

PROFESSOR, OF THEORETICAL PHYSICS,

UNIVERSITY OF SZEGED HALLGATÓKNAK (For students

)

Email:
Phone: +36 (62) 544 369
Phone of secretary: +36 (62) 544 368
Fax: +36 (62) 544 368
Office Hours: Tuesday 16.00 - 17.00
Address: Tisza Lajos körút. 84-86.

6720, SZEGED,

Research interests:

Quantum theory

Quantum and Semiclassical Optics

Laser matter interactions

Decoherence and Wigner functions
in quantum mechanics

Quantum devices

Whoolsthorpe Manor 1993

Cutty Sark
1999

Scientific Degrees:

Ph.D. (Dr. Univ) University of Szeged, Hungary 1974
CSc. State University of St. Petersburg and Hungarian Academy of Sciences
DSc. Hungarian Academy of Sciences
Professor of Department of Theoretical Physics of Szeged University

Member of Societies

Member of the Roland Eötvös Physical Society, Hungary
Vice President of the Society 1996-1999
Member of the European Physical Society, (Member of the Council)
Member of the American Physical Society
Member of the Laser Physics and Spectroscopy Committee of the

Delegate of the Committee to the General Assembly of HAS and to the
Section of Physical Sciences of HAS, 2014-

Courses recently taught:

Basic Quantum Mechanics
Quantum Mechanics
Quantum theory of Laser Matter Interactions
Quantum Optics
Quantum Informatics and Quantum Physics
Atomic and Molecular Physics
Advanced Quantum Physics with Applications

Master thesis supervisor of 35 students

PhD thesis supervisors of 5 students

Awards:

Silver Chalk from students of physics and chemistry 1991
Széchenyi Professor 1999–2002 from the Ministry of Education and Culture
Széchenyi István Professor 2003-2006 from the Ministry of Education and Culture
Award for the Hungarian Higher Education 2001, From the Minister of Education and Culture

The list of all publications can be found here

Some important works, papers:

Super-radiance, Multiatomic Coherent Emission, M. G. Benedict, A. M. Ermolaev, V. A. Malyshev, I. V. Sokolov, E. D. Trifonov, Institute of Physics Publishing, Bristol, Philadephia,1996

Wigner function of an atomic Schrödinger cat

Algebraic construction of the coherent states of the Morse potential based on supersymmetric quantum mechanics:
Mihály G. Benedict, and Balázs Molnár, Phys. Rev A, 60, pp. R1737-R1740 (1999)
See also: quant-ph/9812041

Wigner functions, squeezing properties, and slow decoherence of atomic Schrödinger cats,
M. G. Benedict and A. Czirják, Phys. Rev. A 60, pp 4034-4044 (1999)
See also: quant-ph/9904058 High quality versions of Figures 1, 3, 5, 7 and 8 of this paper

Formation of Schrödinger-cat states in the Morse potential: Wigner function picture
P. Foldi, A. Czirjak, B. Molnar, and M. G. Benedict Optics Express Vol. 10, No. 8, Page 376 (2002)

Time evolution in the Morse potential using supersymmetry: Dissociation of the NO molecule,
B. Molnár, P. Földi, M. G. Benedict, F. Bartha, Europhysics Letters Vol 61, 445-451 (2003)

Microwave emission from a crystal of molecular magnets: The role of a resonant cavity
M. G. Benedict, P. Földi, F. M. Peeters: Phys. Rev. B 72, 214430 (2005)

Spintronic single-qubit gate based on a quantum ring with spin-orbit interaction
P. Földi, B. Molnár, M G. Benedict, F. M. Peeters, Phys Rev B 71 033309 (2005)

Quantum rings as electron spin beam splitters
P. Földi, O. Kálmán, M.G. Benedict, F. M. Peeters: Phys. Rev. B 73, 155325 (2006)

Superradiance
M. G. Benedict, E. D. Trifonov,
in Landolt Börnstein, Laser Physics and Applications VIII/1 A/2. pp. 67-81 (Springer, Berlin 2006)

Networks of Quantum Nanorings:Programmable Spintronic Devices
P. Földi, O. Kálmán, M.G. Benedict, F. M. Peeters, Nano Letters, 8 No. 8 2556-2558 (2008)

Coherent states and global entanglement in an N qubit system
P. Dömötör, M. G. Benedict, Physics Letters A 372 3792-3795 (2008)

Global entanglement and coherent states in an N-partite system,
P. Dömötör, M.G. Benedict, European Physical Journal D 53, 237–242 (2009)

Quantum rings with time-dependent spin-orbit coupling: Spintronic Rabi oscillations
and conductance properties
P. Földi, M. G. Benedict, O. Kálmán, F. M. Peeters Phy. Rev. B 80, 165303, (2009)

Two-dimensional quantum rings with oscillating spin-orbit interaction strength:A wave function picture

P. Földi, O. Kálmán, M. G. Benedict, Phys. Rev. B, 82, 165322 (2010)

Time dependence of quantum entanglement in the collision of two particles

M G Benedict, J Kovács, A Czirják, J Phys. A: Math. Theor. 45 085304 (2012)

Relativistic electron transport through an oscillating barrier:Wave-packet generation and Fano-type resonances

L. Zs. Szabo, M.G. Benedict, A. Czirják, and P. Földi, Phys. Rev. B, 88, 075438 (2013)

The effect of dynamical Bloch oscillations on optical-field-induced current in a wide-gap dielectric

P. Földi, M.G. Benedict, V.S. Yakovlev New Journ. Phys. 15, 063019 (2013)

Scattering of a particle with internal structure from a single slit: exact numerical solutions

P. Dömötör, P. Földi, M.G. Benedict, B.W. Shore, W. P. Schleich, New J. Phys. 17, 023044 (2015)

Last modified 01 February, 2015