MARKOS AN KARAGIORGIS
University of North Texas
Department of Physics
P.O BOX 308411, Denton,
TX 76203
HOME PHONE: 940-380-0444
WORK PHONE: 940-565-4759
E-MAIL: mk0003@jove.acs.unt.edu
OBJECTIVE: To
land a challenging R&D position as
a research scientist with a Scientific Company.
EDUCATION: PH.D (Physics) Expected May 2000
University of North
Texas, Denton, TX 76203
THESIS TOPIC: “Calculation of the
Green Functions of The Fractional-wave Equations In 3-dimensions: Applications
In Calculations Of The Transport Coefficients Using Fractional Derivatives
As Manifestations Of The Microscopic Memory In Macroscopic Environment.”
Master of Science (Physics) May 1995
Clarkson University,
Potsdam NY
Bachelor of Science (Physics) May 1992
University of Crete, Greece
SKILLS:
Strong Knowledge In The Following Areas:
·
Digital Signal Processing
·
Numerical analysis
·
Data processing (using linear methods and nonlinear methods
such as Hurst exponents, entropic methods, etc.)
·
Time series analysis
·
Computer Simulations
Strong knowledge of physics and mathematics
·
Great Communication Skills.
COMPUTER SKILLS:
Working experience:
·
Fortran77 (ab-initio calculations, mean
value calculation for different set of data, calculation of atomic
energy levels, simulations)
·
Fortran90 (codes for digital signal processing)
·
C++ (same coding for digital signal processing, digital Filters)
·
Unix (I was administrator of the Unix server of nonlinear group
of the university of north Texas)
·
Mathematica, Maple, Matlab, Microsoft Excel
·
Working experience with GnuPlot (graphic interface program)
·
Windows 98, Windows 95
·
Familiarity with Linux
Research Experience:
·
Electromagnetic Scattering (propagation of electromagnetic
waves in disorder materials and material with fractal geometry)
·
PHD THESIS RESEARCH: Calculation of the Green functions
of the fractional-wave equations in 3-dimensions: applications in calculations
of the transport coefficients using fractional derivatives as manifestations
of the microscopic memory in macroscopic environment.
·
Solution of wave equations and Maxwell equations using fractional
calculus
·
Disorder materials (transport properties, master equations,
many body theory)
·
Thermodynamics properties of dissipative systems, chaotic systems using maps and spectral decomposition of unitary operators
(markov operators, frobenius-peron operators)
·
Nonlinear Dynamics
·
Chaos Theory
·
Condensed matter theory
·
Symbolic dynamics
PUBLICATIONS:
“Trajectory entropy
versus probability density entropy”
Submitted to Physical Review E
PRESENTATIONS:
International Conference about Complexity - Presentation: “Trajectory Entropy Versus
Density Entropy
EMPLOYMENT: University of North Texas, Denton,
Texas 72603
Teaching assistant
·
Working in Astronomy Lab and Lecturing
In UNT Applied Science and Technology
Centre. Lectured in the course, prepared any material for the
course, responsible for the technical support of the lab.
·
Working at The Center of Instructional Physics supervising
the work of the students and helping them better understand obtuse concepts
in physics as well as teaching them abstract thinking and problem solving
strategies in tutorial sessions.
Clarkson University, Potsdam NY
Teaching Assistant
·
Working at The Center of Instructional Physics
giving recitation sessions and tutorial sessions as well as helping
students on a one-on-one basis to help them better understand the material.
University of Crete,
Crete, Greece
Lab Technician
· Working at
the electronics lab
Responsible for the technical support
of the lab, setting up experimental
equipment (oscilloscopes, Multi-Meters, stroboscopes, etc.)
AFFILIATIONS: S.P.S
Member
Miscellaneous: U.S
citizenship (Born in San Francisco, California)
Recommendations Available upon request
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