physics

OBJECTIVES
• To lead research in theory and phenomenology of Elementary Particle Physics and Cosmology in close contact with experimentalists at international and national research centers.
• To teach physics and math courses to students who wish to specialize in these subjects and to those for whom their knowledge will help their progress in other disciplines.

EDUCATION
Ph.D. in High Energy Theoretical Physics, Moscow State University, 1996
M.Sc. in High Energy Theoretical Physics, Moscow State University, 1993 (Honor Diploma)

EMPLOYMENT HISTORY
2007 – Lecturer at University of Southampton, joint SOTON-RAL Next Institute position
2004 – 2007 Research Associate, Michigan State University (MSU)
2000 – 2004 Research Associate, Florida State University (FSU)
1999 – 2000 Visiting Professor, CERN Theory division
1997 – 1999 Research Associate, Theoretical Physics Institute (Sao Paulo, Brazil)
1996 – 1997 Research Associate, SINP MSU (Moscow, Russia),
long term visitor at DØ, Fermilab.

GRANTS, AWARDS, HONNORS
2006 Research Grant from Jesus College, Oxford University, UK
1997 FAPESP postdoctoral fellowship
1996 Grant of Russian Foundation for Fundamental Research
1995 Grant of ICFPM Fellowship Program
1995 Soros Grant for Graduate Students
1993 Award of Moscow State University for Diploma thesis

PROFESSIONAL DUTIES
• Convener of SUSY group at Snowmass Workshop of American Linear Collider
Physics Group, Snowmass, Colorado, August 14-27, 2005
• High-energy physics seminar organizer at Florida State University, 2000-2004
• Member of organizing committee of Dirac Symposium, Tallahassee, Florida, 2002
• Editor of Dirac Symposium Proceedings, Tallahassee, Florida, 2002
• Referee for Physical Review D since 2002
• Referee for Physics Letter B since 2000

TEACHING EXPERIENCE
My teaching experience expands over 10 years and includes teaching lecture, laboratory
courses and supervision of graduate students. The material taught covers subjects at undergraduate and graduate levels from freshman physics to advanced seminars.

2006, June Lecturer of tutorials on Supersummetry and Cosmology at Physics Department at Oxford, UK
http://hep.pa.msu.edu/belyaev/proj/oxford/talks/susy theory status.pdf

2006, June Lecturer of tutorials on automation tools in High Energy Physics at Physics
Department at Oxford, UK
http://hep.pa.msu.edu/belyaev/proj/oxford/talks/intro to hep tools oxf.pdf

2006, May Lecturer and Author of a minicourse for MSU graduate students and postdocs
titled ”Introduction into essential automation tools in High Energy Physics”
http://hep.pa.msu.edu/belyaev/proj/intro to hep tools/msu/intro to hep tools.pdf

2004 Assistance in teaching of advanced Supersymmetry course at graduate
level at Michigan State University

2003 Assistance in teaching of the undergraduate physics course at Florida State
University

2001 Invited lecturer in Brazilian Center of Research in Physics, course on ”Methods
of the automatic calculations in High Energy Physics”, Rio de Janeiro,
Brazil

1999 Lecturer of a graduate course ”Introduction into methods of the automatic
calculations in High Energy Physics”, Institute of the theoretical Physics,
Sao Paulo, Brazil

1994,1995 Teaching assistant in a graduate course on Nuclear Physics at Moscow
State University

HIGH ENERGY PHYSICS SOFTWARE DEVELOPMENT AND COMPUTER SKILLS
• Co-author of codes (see the list of publications for references):
1) CompHEP-PYTHIA Interface [49]
2) Neutralino Relic Density program [40]
3) ISATOOLS (the part of ISAJET package)
4) Supersymmetric Higgs Pair Production code [58, 61]
5) Development of CTEQ Parton Density Global analysis framework
• Advanced experience in Linux, Unix, Windows at SGI, Sun, DEC, IBM-PC.
• System administrator responsibilities at NPI MSU IBM and SGI clusters
• Programming languages: Fortran, C, C++, HTML, Java
• Packages: CompHEP, major Monte-Carlo generators (PYTHIA, ISAJET, HERWIG), Reduce,
Mathematica, FeynCalc, FeynArts, PAW, ROOT.

In summary, my plan is to explore phenomenology of SUSY theories as well as alternative theories at LHC and ILC and DM search experiments. The compelling complementarity of the above mentioned experiments will allow to understand the nature of underlying theory in great detail.

Since HEP physics nowadays is evolving so rapidly, I believe it is of immense importance for the future of our field to prepare students with a strong knowledge of modern field theory and phenomenology. I would be happy to apply my knowledge and experience to teaching a new generations of physicists.