Dmitry Zubarev | |
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Born | November 27, 1917 Moscow, Russia |
Died | July 29, 1992 Moscow, Russia |
(aged 74)
Nationality | Russia |
Fields | Statistical mechanics |
Institutions | Arzamas-16 Steklov Institute of Mathematics |
Alma mater | Moscow State University |
Doctoral advisor | Nikolay Bogolyubov |
Doctoral students | Alexander Kuzemsky |
Known for | significant contribution to non-equilibrium thermodynamics and to the double-time Green function's formalism |
Dmitry Nikolaevich Zubarev (Russian: Дми́трий Никола́евич Зу́барев; November 27, 1917 — July 29, 1992) was a Russian theoretical physicist known for his contributions to statistical mechanics, non-equilibrium thermodynamics, plasma physics, theory of turbulence, and to the development of the double-time Green function's formalism.
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Dmitry Zubarev was born in Moscow in the family of an engineer. In 1941, he graduated from the Physics Department at Moscow State University and soon after that, on 25 June 1941, volunteered to the People's Volunteer Сorps to participate in Second World War. He participated in the Battle of Moscow and met the end of the war in Berlin with the 47th Army of the First Belorussian Front.
After the war he worked for several years on various military related research projects in Arzamas-16. In this period of time he was greatly influenced by Nikolay Bogoliubov and Andrei Sakharov. Then, in 1954 he moved to Steklov Institute of Mathematics, where continued to work for the rest of his life.
His first research in Arzamas-16 was devoted to various applications of plasma theory, including analyzis of stationary regimes for nuclear reactors (jointly with V. N. Klimov) and analysis of temperature jumps of plasma in magnetic field.
After that he started to work in collaboration with Nikolay Bogoliubov on various problems in theoretical physics and obtained several fundamental results, including development of an asymptotic method for systems with rapidly rotating phases, development of the method of collective variables which is now widely used in theoretical physics, and development of the microscopic theory of superfluidity.
He made a significant contribution to the theory of double-time temperature Green's functions in statistical mechanics, where his work [1] became world famous.
In the period 1961—1965, he developed a method of non-equilibrium statistical operator (NSO), which is now a classical tool in the statistical theory of non-equilibrium processes. This method allowed him to include non-equilibrium phenomena in the framework of statistical mechanics in a natural way following the ideas of Josiah Willard Gibbs. Using the NSO method, he constructed relativistic thermodynamics and relativistic hydrodynamics, the statistical transport theory for systems of particles with internal degrees of freedom, and the statistical thermodynamics for turbulent transport processes.
He was an editorial staff member of the journal Theoretical and Mathematical Physics and a member of the International Editorial staff of the journals Physica A and Physics Letters A.