Victor Flambaum

Biography

Dr. VICTOR FLAMBAUM is currently working as a Professor in the Department of Physics, The University of Newsouth Wales , Australia. His research interests includes  a number of challenging problems in atomic, molecular, nuclear, elementary particle, solid state physics, general relativity and astrophysics: violation of the fundamental symmetries (parity, time invariance, Lorentz), test of the theories of Grand Unification of elementary particles and their interactions, manifestations  of Dark matter and Dark energy in atomic in astrophysical phenomena, search for spatial and temporal variation of the fundamental constants in the Universe from the Big Bang to the present time (such variation is predicted by theories unifying gravity with other interactions), many-body theory and high-precision atomic calculations, quantum chaos and statistical theory, quantum effects in superstrong gravitational fields (black holes), high-temperature superconductivity, mesoscopic systems and conductance quantization. He /she is serving as an editorial member and reviewer of several international reputed journals. Dr. VICTOR FLAMBAUM is the member of many international affiliations. He/ She has successfully completed his Administrative responsibilities. He /she has authored of many research articles/books related to  a number of challenging problems in atomic, molecular, nuclear, elementary particle, solid state physics, general relativity and astrophysics: violation of the fundamental symmetries (parity, time invariance, Lorentz), test of the theories of Grand Unification of elementary particles and their interactions, manifestations  of Dark matter and Dark energy in atomic in astrophysical phenomena, search for spatial and temporal variation of the fundamental constants in the Universe from the Big Bang to the present time (such variation is predicted by theories unifying gravity with other interactions), many-body theory and high-precision atomic calculations, quantum chaos and statistical theory, quantum effects in superstrong gravitational fields (black holes), high-temperature superconductivity, mesoscopic systems and conductance quantization.

Research Interest

 A number of challenging problems in atomic, molecular, nuclear, elementary particle, solid state physics, general relativity and astrophysics: violation of the fundamental symmetries (parity, time invariance, Lorentz), test of the theories of Grand Unification of elementary particles and their interactions, manifestations  of Dark matter and Dark energy in atomic in astrophysical phenomena, search for spatial and temporal variation of the fundamental constants in the Universe from the Big Bang to the present time (such variation is predicted by theories unifying gravity with other interactions), many-body theory and high-precision atomic calculations, quantum chaos and statistical theory, quantum effects in superstrong gravitational fields (black holes), high-temperature superconductivity, mesoscopic systems and conductance quantization