Classification: Primary Faculty
PhD: 1985, Moscow Institute of Physics and Technology & Landau Institute for Theoretical Physics, USSR
D.Sci.: 2000, Landau Institute for Theoretical Physics, Russia
I am a theoretical physicist and my scientific interests are subdivided into two major areas.
1) Relativity and Gravitation.
Recently, I have shown that gravitational mass of a composite quantum body, mg, is not always equivalent to its total energy and suggested two experiments to detect such events, where the Einstein’s equation, E=mgc2, is broken.
2) Condensed Matter Physics in High Magnetic Fields.
I study exotic superconducting, super-crystalline, spin-density-wave, and unconventional metallic properties of solids in an external magnetic field. Among them, are unconventional superconductivity, including triplet and high temperature singlet d-wave superconductivity, the field-induced spin- and charge-density-waves, the super-crystalline phase in organic conductors and superconductors, the Lebed Magic Angles effects and some other phenomena. In particular, I am interested in investigating of such superconducting phases as the Reentrant superconductivity and the Larkin-Ovchinnikov-Fulde-Ferrell phase, which can exist in magnetic fields much higher than both the upper critical magnetic field and the so-called Clogston-Chandrasekhar paramagnetic limit.
Honors and Awards:
1988: Second Prize at Academy of Sciences of USSR
1989: Second Prize at Landau Institute Scientific Competition
1990: Lenin Komsomol Prize in Physics (the major Soviet Union prize for scientists younger than 34)
2001: First Prize at Landau Institute Scientific Competition
Fellow of American Physical Society since 2014
Lebed, A.G. Does the Equivalence between Gravitational Mass and Energy Survive for a Composite Quantum Boy? Advances in High Energy Physics, 2014, 678087 (2014).
Lebed, A.G. Is gravitational mass of a composite quantum body equivalent to its energy? Cent. Eur. J. Phys., 11, 969 (2013).
Lebed, A.G. and Sepper, O. Possible triplet superconductivity in the quasi-one-dimensional conductor Li0.9Mo6O17Phys. Rev. B 87, 100511 (R) (2013).
Lebed, A.G. Hidden Reentrant and Larkin-Ovchinnikov-Fulde-Ferrell Superconducting Phases in a Magnetic Field in a (TMTSF)2ClO4. Phys. Rev. Lett. 107, 087004 (2011).
Lebed, A.G. (ed) The Physics of Organic Superconductors and Conductors (Springer, NY, 2008).