Your search keyword '"A. N. Toropin"' showing total 3 results

1. Improved exclusion limit for light dark matter from e+e− annihilation in NA64

Author

V. M. Lysan, Vassili Kachanov, S. N. Gninenko, André Rubbia, M. Jeckel, V. A. Kramarenko, L. Kravchuk, D. Shchukin, A. N. Toropin, M. Bondi, V.A. Polyakov, P. Ulloa, Johannes Bernhard, Petr Volkov, B. Radics, D. Peshekhonov, Paolo Crivelli, Serguei Kuleshov, L. Molina, V. E. Lyubovitskij, G. D. Kekelidze, V. Volkov, V.E. Burtsev, B.I. Vasilishin, Yu. M. Andreev, V. O. Tikhomirov, G. Vasquez, Rimsky Alejandro Rojas, A. Celentano, V.D. Samoylenko, Sergey Kovalenko, David R. Cooke, R.R. Dusaev, Nikolaos Charitonidis, S. Gerassimov, H. Sieber, Debapriya Banerjee, B. Ketzer, A.G. Chumakov, M. Kirsanov, E. Depero, S. V. Donskov, Igor Konorov, A. V. Dermenev, A. E. Karneyeu, A. Gardikiotis, N. V. Krasnikov, A. Trifonov, V. A. Matveev, I. Tlisova, T. Enik, Yu. V. Mikhailov, V.N. Kolosov, D. V. Kirpichnikov, L. Marsicano, A. Feshchenko, Vladimir Frolov, and M. Hoesgen

Subjects

Physics, Particle physics, Missing energy, Annihilation, 010308 nuclear & particles physics, Dark matter, Electron, Coupling (probability), 01 natural sciences, Standard Model, Vector boson, 0103 physical sciences, 010306 general physics, Light dark matter

Abstract

The current most stringent constraints for the existence of sub-GeV dark matter coupling to Standard Model via a massive vector boson $A^\prime$ were set by the NA64 experiment for the mass region $m_{A^\prime}\lesssim 250$ MeV, by analyzing data from the interaction of $2.84\cdot10^{11}$ 100-GeV electrons with an active thick target and searching for missing-energy events. In this work, by including $A^\prime$ production via secondary positron annihilation with atomic electrons, we extend these limits in the $200$-$300$ MeV region by almost an order of magnitude, touching for the first time the dark matter relic density constrained parameter combinations. Our new results demonstrate the power of the resonant annihilation process in missing energy dark-matter searches, paving the road to future dedicated $e^+$ beam efforts.

Published

2021

2. Constraints on New Physics in Electron g−2 from a Search for Invisible Decays of a Scalar, Pseudoscalar, Vector, and Axial Vector

Author

B. Radics, Rimsky Alejandro Rojas, S. V. Kuleshov, L. Molina Bueno, Dipanwita Banerjee, A. N. Toropin, A. Yu. Trifonov, B. Ketzer, A. V. Dermenev, Petr Volkov, M. Kirsanov, V. A. Kramarenko, Valery E. Lyubovitskij, L. Kravchuk, Viktor Matveev, V.N. Kolosov, V.D. Samoylenko, V. Yu. Volkov, Sergey Kovalenko, David R. Cooke, E. Depero, Nikolaos Charitonidis, S. Gerassimov, T. Enik, A. Gardikiotis, V.E. Burtsev, V. M. Lysan, N. V. Krasnikov, A.G. Chumakov, Yu Andreev, D. Shchukin, Vassili Kachanov, V. O. Tikhomirov, André Rubbia, Igor Konorov, B.I. Vasilishin, D. V. Kirpichnikov, Paolo Crivelli, R.R. Dusaev, D.V. Peshekhonov, A. Feshchenko, Vladimir Frolov, G. D. Kekelidze, Johannes Bernhard, V.A. Polyakov, M. Hösgen, Sergei Gninenko, H. Sieber, I. Tlisova, Yu. V. Mikhailov, S. V. Donskov, and A. E. Karneyeu

Subjects

Physics, Particle physics, Anomalous magnetic dipole moment, Scalar (mathematics), General Physics and Astronomy, Fine-structure constant, Electron, Coupling (probability), 7. Clean energy, 01 natural sciences, Pseudoscalar, 0103 physical sciences, 010306 general physics, Pseudovector, Boson

Abstract

We performed a search for a new generic X boson, which could be a scalar (S), pseudoscalar (P), vector (V), or an axial vector (A) particle produced in the 100 GeV electron scattering off nuclei, e^{-}Z→e^{-}ZX, followed by its invisible decay in the NA64 experiment at CERN. No evidence for such a process was found in the full NA64 dataset of 2.84×10^{11} electrons on target. We place new bounds on the S, P, V, A coupling strengths to electrons, and set constraints on their contributions to the electron anomalous magnetic moment a_{e}, |Δa_{X}|≲10^{-15}-10^{-13} for the X mass region 1 MeV≲m_{X}≲1 GeV. These results are an order of magnitude more sensitive compared to the current accuracy on a_{e} from the electron g-2 experiments and recent high-precision determination of the fine structure constant.

Published

2021

3. Improved limits on a hypothetical X(16.7) boson and a dark photon decaying into e+e− pairs

Author

P. Ulloa, L. Kravchuk, V. Yu. Volkov, D. Peshekhonov, Serguei Kuleshov, V. A. Matveev, M. Hösgen, D. Shchukin, Rimsky Alejandro Rojas, André Rubbia, V.A. Polyakov, A. Yu. Trifonov, L. Molina Bueno, V. O. Tikhomirov, Paolo Crivelli, V.D. Samoylenko, A. V. Dermenev, V.E. Burtsev, A. N. Toropin, V. E. Lyubovitskij, David R. Cooke, B. Ketzer, V.N. Kolosov, A.G. Chumakov, B.I. Vasilishin, V. M. Lysan, Igor Konorov, S. N. Gninenko, M. Jeckel, R.R. Dusaev, M. Kirsanov, V. A. Kramarenko, Nikolaos Charitonidis, T. Enik, D. A. Tlisov, Sergey Kovalenko, B. Radics, E. Depero, Vassili Kachanov, S. Gerassimov, N. V. Krasnikov, D. V. Kirpichnikov, G. D. Kekelidze, A. Feshchenko, Vladimir Frolov, Johannes Bernhard, A. Gardikiotis, Dipanwita Banerjee, Petr Volkov, G. Vasquez Arenas, S. V. Donskov, A. E. Karneyeu, I. Tlisova, and Yu. V. Mikhailov

Subjects

Physics, Photon, 010308 nuclear & particles physics, Bremsstrahlung, Electron, 01 natural sciences, 7. Clean energy, Super Proton Synchrotron, Dark photon, Excited state, 0103 physical sciences, Anomaly (physics), Atomic physics, 010306 general physics, Boson

Abstract

The improved results on a direct search for a new X ( 16.7 MeV ) boson that could explain the anomalous excess of e + e − pairs observed in the decays of the excited 8 Be ∗ nuclei (“Berillium or X17 anomaly”) are reported. Interestingly, new recent results in the nuclear transitions of another nucleus, 4 He , seems to support this anomaly spurring the need for an independent measurement. If the X boson exists, it could be produced in the bremsstrahlung reaction e − Z → e − Z X by a high energy beam of electrons incident on the active target in the NA64 experiment at the CERN Super Proton Synchrotron and observed through its subsequent decay into e + e − pairs. No evidence for such decays was found from the combined analysis of the data samples with total statistics corresponding to 8.4 × 10 10 electrons on target collected in 2017 and 2018. This allows one to set new limits on the X − e − coupling in the range 1.2 × 10 − 4 ≲ e e ≲ 6.8 × 10 − 4 , excluding part of the parameter space favored by the X17 anomaly, and setting new bounds on the mixing strength of photons with dark photons ( A ′ ) with a mass ≲ 24 MeV . For the 2018 run, the setup was optimized to probe the region of parameter space characterized by a large coupling e . This allowed a significant improvement in sensitivity despite a relatively modest increase in statistics.

Published

2020