Formation of highly excited states of 6He in the 9Be(π−, tt)t reaction |
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Authors: | Yu. B. Gurov V. S. Karpukhin S. V. Lapushkin I. V. Laukhin V. A. Pechkurov N. O. Poroshin V. G. Sandukovsky M. V. Tel’kushev B. A. Chernyshev |
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Affiliation: | (1) Moscow Engineering Physics Institute, State University, Kashirskoe sh. 31, Moscow, 115409, Russia;(2) Joint Institute for Nuclear Research, Dubna, Moscow region, 141980, Russia |
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Abstract: | The hypothesis of a heavy stable quark of the fourth family can provide a nontrivial solution for cosmological dark matter if baryon asymmetry in the fourth family has a negative sign and an excess of ū antiquarks with charge (?2/3) is generated in the early Universe. Excessive ū antiquarks form (ūūū) antibaryons with electric charge ?2, which are all captured by 4He and trapped in a [4He++(ūūū)??] O-helium OHe “atom” as soon as 4He is formed in Big Bang nucleosynthesis. Interaction of O-helium with nuclei opens a new path to the creation of heavy nuclides in Big Bang nucleosynthesis. Due to the large mass of the U quark, OHe “atomic” gas decouples from baryonic matter and plays the role of dark matter in large-scale structure formation with structures on small scales being suppressed. Owing to nuclear interaction with matter, cosmic O-helium from the galactic dark matter halo is slowed in the Earth below the thresholds of underground dark matter detectors. However, an experimental test of this hypothesis is possible in the search for OHe in balloon-borne experiments and for U hadrons in cosmic rays and accelerators. OHe “atoms” might form anomalous isotopes and could cause cold nuclear transformations in matter, offering a possible way to exclude (or prove) their existence. |
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