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Strange quark matter fragmentation in astrophysical events
The conjecture of Bodmer-Witten-Terazawa suggesting a form of quark matter
(Strange Quark Matter) as the ground state of hadronic interactions has been
studied in laboratory and astrophysical contexts by a large number of authors.
If strange stars exist, some violent events involving these compact objects,
such as mergers and even their formation process, might eject some strange
matter into the interstellar medium that could be detected as a trace signal in
the cosmic ray flux. To evaluate this possibility, it is necessary to
understand how this matter in bulk would fragment in the form of strangelets
(small lumps of strange quark matter in which finite effects become important).
We calculate the mass distribution outcome using the statistical
multifragmentation model and point out several caveats affecting it. In
particular, the possibility that strangelets fragmentation will render a tiny
fraction of contamination in the cosmic ray flux is discussed.Comment: 13 pages, 4 figure
Interaction of strangelets with ordinary nuclei
Strangelets (hypothetical stable lumps of strange quarkmatter) of
astrophysical origin may be ultimately detected in specific cosmic ray
experiments. The initial mass distribution resulting from the possible
astrophysical production sites would be subject to reprocessing in the
interstellar medium and in the earth's atmosphere. In order to get a better
understanding of the claims for the detection of this still hypothetic state of
hadronic matter, we present a study of strangelet-nucleus interactions
including several physical processes of interest (abrasion, fusion, fission,
excitation and de-excitation of the strangelets), to address the fate of the
baryon number along the strangelet path. It is shown that, although fusion may
be important for low-energy strangelets in the interstellar medium (thus
increasing the initial baryon number A), in the earth's atmosphere the loss of
the baryon number should be the dominant process. The consequences of these
findings are briefly addressed
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