V
Vsevolod M. Byakov
Researcher at Kurchatov Institute
Publications - 110
Citations - 1050
Vsevolod M. Byakov is an academic researcher from Kurchatov Institute. The author has contributed to research in topics: Positronium & Electron. The author has an hindex of 16, co-authored 109 publications receiving 977 citations. Previous affiliations of Vsevolod M. Byakov include D. Mendeleev University of Chemical Technology of Russia & Moscow State University.
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Journal ArticleDOI
Proposed antimatter gravity measurement with an antihydrogen beam
Alban Kellerbauer,M. Amoretti,A. S. Belov,Germano Bonomi,I. Boscolo,R. S. Brusa,Matthias Büchner,Vsevolod M. Byakov,L. Cabaret,Carlo Canali,C. Carraro,Fabrizio Castelli,Simone Cialdi,M. de Combarieu,Daniel Comparat,Giovanni Consolati,Nikolay Djourelov,Michael Doser,G. Drobychev,Alfredo Dupasquier,Gabriele Ferrari,P. Forget,L. Formaro,Antonella Gervasini,Marco Giammarchi,Sergei Gninenko,Gleb Gribakin,S. D. Hogan,Marion Jacquey,V. Lagomarsino,G. Manuzio,Sebastiano Mariazzi,Viktor Matveev,J. O. Meier,Frédéric Merkt,P. Nedelec,Markus K. Oberthaler,P. Pari,Marco Prevedelli,Fiorenza Quasso,Alberto Rotondi,D. Sillou,Sergey V. Stepanov,H. H. Stroke,G. Testera,Guglielmo M. Tino,G. Trénec,Antonio Vairo,Jacques Vigué,H. R. J. Walters,U. Warring,Sandra Zavatarelli,D. S. Zvezhinskij +52 more
TL;DR: The AEGIS experiment at CERN/AD as mentioned in this paper was the first experiment to directly measure the Earth's gravitational acceleration on antihydrogen with a classical Moire deflectometer.
Journal ArticleDOI
Electric field effect on positronium formation in liquids
TL;DR: In this paper, the authors compared different models of positronium formation in the presence of an external electric field (e.g., the Onsager model, the spur model, and the blob model) and provided a formula for the geminate recombination probability.
Proposal for the AEGIS experiment at the CERN antiproton decelerator (Antimatter Experiment: Gravity, Interferometry, Spectroscopy)
G Yu Drobychev,U Gendotti,Ilario Boscolo,H. R. J. Walters,Matthias Büchner,André Rubbia,M. Oberthaler,Patrick Nedelec,Sandra Zavatarelli,C. Carraro,A. S. Belov,Gabriele Ferrari,G Giammarchi,Antonella Gervasini,L. Formaro,G. Testera,Antonio Vairo,Vsevolod M. Byakov,S. D. Hogan,Gleb Gribakin,M. de Combarieu,U. Warring,Alfredo Dupasquier,Germano Bonomi,Giovanni Consolati,P Crivelli,Lagomarsino,Guglielmo M. Tino,Sergey V. Stepanov,Frédéric Merkt,Fabrizio Castelli,Sebastiano Mariazzi,L. Cabaret,Alban Kellerbauer,D. Sillou,Nikolay Djourelov,R. S. Brusa,G. Manuzio,Marion Jacquey,D. S. Zvezhinskij,P. Pari,H. H. Stroke,A Badertscher,Daniel Comparat,M. Amoretti,J. O. Meier,Simone Cialdi,Marco Prevedelli,V. A. Matveev,Carlo Canali,Sergei Gninenko,G. Trénec,Alberto Rotondi,Jacques Vigué,Michael Doser,P. Forget,Fiorenza Quasso +56 more
Journal ArticleDOI
The nature of the precursors of radiolytic molecular hydrogen in water, and the mechanism of positronium formation in liquids
TL;DR: The dependence of H2 yields on the concentration of certain solutes indicates that radiolytic H2 is formed via recombination of its precursors in spurs.
Journal ArticleDOI
Common features in the formation of Ps, Mu, radiolytic hydrogen and solvated electrons in aqueous solutions
TL;DR: In this paper, a unified quantitative model of the formation of positronium, muonium and radiolytic hydrogen is proposed, which includes a description of the slowing down and thermalization stages, which are responsible for the initial spatial distribution of primary intratrack species.