SCHOOL OF NATURAL SCIENCES AND MEDICINE
ILIA STATE UNIVERSITY

Direction:Physics (quantum field theory)
Position:Associate Professor





He graduated from Faculty of Physics at Lomonosov Moscow State University in 1983. From 1983 to 1986 he continued his studies in postgraduate scool at the Department of Theoretical Physics at the Faculty of Physics of Lomonosov Moscow State University by specialty in theoretical and mathematical physics, and in 1987 he received his Ph.D. in theoretical and mathematical physics from Lomonosov Moscow State University. From 1986 to 2007 he worked in Tskhinvali State University, was a full professor of the Faculty of Natural Sciences, Mathematics and Computer Technologies, Head of the Department of Mathematics, Physics and Computer Technologies, a member of the Academic Council of the University. From 2007 to 2009, he worked at Gori State University, was a full professor of the Faculty of Education, Exact and Natural Sciences. Since 2006 to this day he has been working at Ilya State University as an associate professor and researcher at the Institute of Biophysics of the University. He conducts active scientific and pedagogical activity.

Scientific interests / research interests

  • Physics in spacetimes with extra dimensions;
  • Fundamental principles of quantum physics;
  • Quantum field theories;
  • Application of modern computer systems (“Wolfram Mathematica”, “Maple”) in physics;

Featured publications

    • Diffractions from the brane and GW150914; Merab Gogberashvili, Pavle Midodashvili; EPL 114 (2016) no.5, 50008.
    • Localization of Matter Fields in the 6D Standing Wave Braneworld; Pavle Midodashvili; J.Theor.Phys. 53 (2014) 1174-1187.
    • Physics of computation and light sheet concept in the measurement of (4+n)-dimensional spacetime geometry; Pavle Midodashvili; EPL 83 (2008) no.5, 50004.
    • Fermion Generations from ‘Apple-Shaped’ Extra Dimensions; Merab Gogberashvili, Pavle Midodashvili, Douglas Singleton; JHEP 0708 (2007) 033.
    • About quantum fluctuations and holographic principle in (4+n)-dimensional spacetime; Pavle Midodashvili; Phys.Lett. A21 (2006) 1041-1048.

An extensive list of publications

    • The LIGO Signal GW150914 within the Braneworld Scenario; Merab Gogberashvili and Pavle Midodashvili; Gravitational Waves: Explorations, Insights and Detection (Physics Research and Technology). Nova Science Pub Inc, (ISBN: 978-1-53612-246-6). (pp.71-84).
    • Fermions in the 5D Gravity-Scalar Standing Wave Braneworld; Merab Gogberashvili and Pavle Midodashvili; J.Mod.Phys. A29 (2014) no.24, 1450141.
    • New Class of N-dimensional Braneworlds; Merab Gogberashvili, Pavle Midodashvili, Giorgi Tukhashvili; Rel.Grav. 46 (2014) 1697.
    • Gauge Fields in the 5D Gravity-Scalar Standing Wave Braneworld; Merab Gogberashvili and Pavle Midodashvili; EPL 104 (2013) no.5, 50002.
    • The 5D Standing Wave Braneworld With Real Scalar Field; Merab Gogberashvili and Pavle Midodashvili; High Energy Phys. 2013 (2013) 873686.
    • Localization Problem in the 5D Standing Wave Braneworld; Merab Gogberashvili, Pavle Midodashvili and Levan Midodashvili; J.Mod.Phys. D21 (2012) 1250081.
    • Localization of gauge bosons in the 5D standing wave braneworld; Merab Gogberashvili, Pavle Midodashvili and Levan Midodashvili; Lett. B707 (2012) 169-172.
    • Localization of scalar and tensor fields in the standing wave braneworld with increasing warp factor; Merab Gogberashvili, Pavle Midodashvili and Levan Midodashvili; Lett. B702 (2011) 276-280.
    • New 3-Brane Solutions in 5D Spacetime; Pavle Midodashvili; arXiv:1010.3853 [hep-th].
    • Holographic principle in spacetimes with extra spatial dimensions; Pavle Midodashvili; arXiv: hep-th/0602237.
    • Gravitational trapping of matters in 6D and three fermion generations; Pavle Midodashvili; Lett. 66 (2004) 478-484.
    • Fermions on the brane in 6D with nonsingular exponential scale factors; Pavle Midodashvili; Lett. 69 (2005) 346-352.
    • Gravitational localization of matters in 6-D; Pavle Midodashvili and Levan Midodashvili; Lett. 65 (2004) 640-646.
    • Localization of fields on a brane in six-dimensions; Merab Gogberashvili and Pavle Midodashvili; Lett. 61 (2003) 308-313.
    • Brane universe in six-dimensions; Merab Gogberashvili and Pavle Midodashvili; Lett. B515 (2001) 447-450.

Current Courses

Course Catalog

Bachelor’s level

  • Physics of the Microworld – Basics of Quantum Physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Maple Computer System Specialized packages

Bachelor’s level

  • Physics of Micro world – Basics of quantum physics
  • Maple Software System
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Maple Computer System Specialized packages

2020-2021 Year

Bachelor’s level

  • Computer Methods in Physics
  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2019-2020 Year

Bachelor’s level

  • Computer Methods in Physics
  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2018-2019 Year

Bachelor’s level

  • Computer Methods in Physics
  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2017-2018 Year

Bachelor’s level

  • Computer Methods in Physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2016-2017 Year

Bachelor’s level

  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2015-2016 Year

Bachelor’s level

  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Computer mathematical modeling in Physics

2014-2015 Year

Bachelor’s level

  • Calculus I
  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

2013-2014 Year

  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

2012-2013 Year

Bachelor’s level

  • Physics of Micro world – Basics of quantum physics
  • Space and Time as Viewed by Modern Physics

2011-2012 Year

Bachelor’s level

  • Databases and Systems of Their Management II
  • Space and Time as Viewed by Modern Physics
  • Databases and Database Management Systems I

2010-2011 Year

Bachelor’s level

  • Databases and Systems of Their Management II
  • Databases and Database Management Systems I
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Databases
  • Databases Management Systems and Administration

2009-2010 Year

Bachelor’s level

  • Databases and Systems of Their Management II
  • World of Databases
  • Databases and Database Management Systems I
  • Space and Time as Viewed by Modern Physics

Master’s level

  • Databases (MYSQL)