Joint Institute for High Temperatures of the Russian Academy of Sciences | Russia
Prof. Vladimir Filinov is a distinguished scientist at the Theoretical Department of the Institute for High Temperatures, Russian Academy of Sciences in Moscow, with a long-standing career in advanced theoretical and computational physics. His primary specialization focuses on computational methods of quantum statistical mechanics and wave propagation in random media, along with contributions to computer physics, Monte Carlo methods, perturbation theory of dense gases and plasmas, and solid-state systems. He has pioneered quantum complex-valued Monte Carlo techniques, path-integral approaches for stationary and non-stationary quantum problems, quantum molecular dynamics for the Wigner–Liouville equation, and the tomographic representation of quantum mechanics, with significant research on strongly correlated dusty, electromagnetic, and quark–gluon plasmas. His work has been widely recognized through notable awards, memberships in professional scientific societies, research grants, collaborative international programs, and visiting professorships across several universities worldwide. He has authored more than two hundred papers, numerous scientific communications, and several influential books and encyclopedia chapters, contributing extensively to the advancement of quantum statistical physics.
Filinov, V., Levashov, P., & Larkin, A. (2025). Wigner path integral representation of the density of states: Monte Carlo simulation of plasma media. Journal of Statistical Physics.
Filinov, V., Levashov, P., & Larkin, A. (2025). Density response and correlation functions in the Wigner path integral representation: Monte Carlo simulations. Physics Letters A: General Atomic and Solid State Physics.
Filinov, V. S., Levashov, P. R., & Larkin, A. S. (2025). Spectral density of the Wigner path integral operator correlation function representation: Monte Carlo simulation of the fermion dynamic structure factor. Molecular Physics.
Filinov, V. S., Levashov, P. R., & Larkin, A. S. (2024). Phase-space path-integral representation of the quantum density of states: Monte Carlo simulation of strongly correlated soft-sphere fermions. Physical Review E.
Filinov, V., Levashov, P., & Larkin, A. (2023). Density of states of a 2D system of soft-sphere fermions by path integral Monte Carlo simulations. Journal of Physics A: Mathematical and Theoretical.