Now showing 1 - 2 of 2
  • Publication
    Probing the explanation of the muon (g-2) anomaly and thermal light dark matter with the semi-visible dark photon channel
    (2021-10-01)
    Cazzaniga, C.
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    Odagiu, P.
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    Depero, E.
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    Molina Bueno, L.
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    Andreev, Yu M.
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    Banerjee, D.
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    Bernhard, J.
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    Burtsev, V. E.
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    Charitonidis, N.
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    Chumakov, A. G.
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    Cooke, D.
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    Crivelli, P.
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    Dermenev, A. V.
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    Donskov, S. V.
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    Dusaev, R. R.
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    Enik, T.
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    Feshchenko, A.
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    Frolov, V. N.
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    Gardikiotis, A.
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    Gerassimov, S. G.
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    Girod, S.
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    Gninenko, S. N.
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    Hösgen, M.
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    Kachanov, V. A.
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    Karneyeu, A. E.
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    Kekelidze, G.
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    Ketzer, B.
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    Kirpichnikov, D. V.
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    Kirsanov, M. M.
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    Kolosov, V. N.
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    Konorov, I. V.
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    Kramarenko, V. A.
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    Kravchuk, L. V.
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    Krasnikov, N. V.
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    Lysan, V.
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    Matveev, V. A.
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    Mikhailov, Yu V.
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    Peshekhonov, D. V.
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    Polyakov, V. A.
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    Radics, B.
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    Rojas, R.
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    Rubbia, A.
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    Samoylenko, V. D.
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    Shchukin, D.
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    Sieber, H.
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    Tikhomirov, V. O.
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    Tlisova, I. V.
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    Tlisov, D. A.
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    Toropin, A. N.
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    Trifonov, A. Yu
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    Vasilishin, B. I.
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    Arenas, G. Vasquez
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    Volkov, P. V.
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    Volkov, V. Yu
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    Ulloa, P.
    AbstractWe report the results of a search for a new vector boson ($$ A'$$ A ′ ) decaying into two dark matter particles $$\chi _1 \chi _2$$ χ 1 χ 2 of different mass. The heavier $$\chi _2$$ χ 2 particle subsequently decays to $$\chi _1$$ χ 1 and an off-shell Dark Photon $$ A'^* \rightarrow e^+e^-$$ A ′ ∗ → e + e - . For a sufficiently large mass splitting, this model can explain in terms of new physics the recently confirmed discrepancy observed in the muon anomalous magnetic moment at Fermilab. Remarkably, it also predicts the observed yield of thermal dark matter relic abundance. A detailed Monte-Carlo simulation was used to determine the signal yield and detection efficiency for this channel in the NA64 setup. The results were obtained re-analyzing the previous NA64 searches for an invisible decay $$A'\rightarrow \chi \overline{\chi }$$ A ′ → χ χ ¯ and axion-like or pseudo-scalar particles $$a \rightarrow \gamma \gamma $$ a → γ γ . With this method, we exclude a significant portion of the parameter space justifying the muon g-2 anomaly and being compatible with the observed dark matter relic density for $$A'$$ A ′ masses from 2$$m_e$$ m e up to 390 MeV and mixing parameter $$\varepsilon $$ ε between $$3\times 10^{-5}$$ 3 × 10 - 5 and $$2\times 10^{-2}$$ 2 × 10 - 2 .
  • Publication
    Improved exclusion limit for light dark matter from e+e- annihilation in NA64
    (2021-11-01)
    Andreev, Yu M.
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    Banerjee, D.
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    Bernhard, J.
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    Bondì, M.
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    Burtsev, V. E.
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    Celentano, A.
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    Charitonidis, N.
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    Chumakov, A. G.
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    Cooke, D.
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    Crivelli, P.
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    Depero, E.
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    Dermenev, A. V.
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    Donskov, S. V.
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    Dusaev, R. R.
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    Enik, T.
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    Feshchenko, A.
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    Frolov, V. N.
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    Gardikiotis, A.
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    Gerassimov, S. G.
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    Gninenko, S. N.
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    Hösgen, M.
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    Jeckel, M.
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    Kachanov, V. A.
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    Karneyeu, A. E.
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    Kekelidze, G.
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    Ketzer, B.
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    Kirpichnikov, D. V.
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    Kirsanov, M. M.
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    Kolosov, V. N.
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    Konorov, I. V.
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    Kovalenko, S. G.
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    Kramarenko, V. A.
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    Kravchuk, L. V.
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    Krasnikov, N. V.
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    Kuleshov, S. V.
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    Lysan, V.
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    Marsicano, L.
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    Matveev, V. A.
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    Mikhailov, Yu V.
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    Molina Bueno, L.
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    Peshekhonov, D. V.
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    Polyakov, V. A.
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    Radics, B.
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    Rubbia, A.
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    Samoylenko, V. D.
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    Sieber, H.
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    Shchukin, D.
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    Tikhomirov, V. O.
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    Tlisova, I.
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    Toropin, A. N.
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    Trifonov, A. Yu
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    Ulloa, P.
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    Vasilishin, B. I.
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    Vasquez Arenas, G.
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    Volkov, P. V.
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    Volkov, V. Yu
    The current most stringent constraints for the existence of sub-GeV dark matter coupling to Standard Model via a massive vector boson A0 were set by the NA64 experiment for the mass region mA0 ≲ 250 MeV, by analyzing data from the interaction of 2.84 × 1011 100-GeV electrons with an active thick target and searching for missing-energy events. In this work, by including A0 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 p