Massive Exotic (susy) Particles:. Phenomenology & Cosmology
Abstract
I would like to make a few examples based on recent developments of QCD about the interplay between complementary aspects of astrophysical and laboratory searches. The quark gluon plasma can be achieved in ultra-relativistic heavy-ion collisions for a very small time, it has certainly existed immediately after the Big Bang and it may be a component of neutron stars. The experimental study of ultra-relativistic heavy-ion collisions at the RHIC, which recently started operating at Brookhaven National Laboratory, and at the forecoming LHC with ALICE will provide the laboratory information about the Little Bangs one is able to produce on Earth. Another interesting example of strange matter is the unusual stable or quasi-stable state of matter called strangelet. In 1984 E. Witten stimulated a great interest for these small lump of strange matter that could conceavably have lower energy than a nucleus with the same number of quarks. A strange matter star, due to the fact that it is bound essentially by strong interaction, could have a considerably smaller radius than a neutron star and it will have a shorter rotation period. At this time, astrophysical stable strange matter has not been discovered but the experimental and theoretical searches continue. At the accelerators the production of strangelets is under experimental investigation even though it seems unlikely. This possibility has also been studied in order to exclude the so called "disaster scenario" at RHIC. The disaster could happen once a strangelet, produced at RHIC, begins to absorb ordinary matter in order to increase its stability: this process could continue until all available matter had been changed in strange matter. The reassuring result of the study is that there is an immaterial probability associated with the chain of linked events to be fulfilled in order to obtain the disaster. Finally it is worth mentioning, the results of lattice simulations which have confirmed numerically the color confinement of the QCD from the first principles...
- Publication:
-
The Ninth Marcel Grossmann Meeting
- Pub Date:
- December 2002
- DOI:
- Bibcode:
- 2002nmgm.meet.2384P