Zbigniew Sosin

We don’t have enough information about this author to calculate their statistics. If you think this is an error let us know.
Learn More
Prototypes of the triple telescope modules have been tested at GSI using the Au beam at 400 AMeV and the 3% Pb target. The modules are planned to become building blocks of the charged particle detector that is being built for the ASY-EOS experiment [1]. The final detector will consist of 36 modules covering about 160 msr and is expected to provide(More)
Experiments on the production and study of superheavy nuclei have been undertaken at GANIL taking advantages of the powerful velocity filter LISE3 and the high intensity ECR ion sources. A complete set-up has been built: reaction chamber containing large rotating wheels, slits and beam profiler at mid-filter, detection chamber with time-of-flight and(More)
Measurements, with the BRAHMS detector, of the antiproton-to-proton ratio at midrapidities and forward rapidities, are presented for Au+Au reactions at square root of [s(NN)] = 130 GeV, and for three different collision centralities. For collisions in the 0%-40% centrality range, we find N(&pmacr;)/N(p) = 0.64+/-0.04((stat))+/-0.06((syst)) at y(More)
W. Gawlikowicz,1,2 D. K. Agnihotri,1 S. A. Baldwin,1 W. U. Schröder,1,* J. Tõke,1 R. J. Charity,3 D. G. Sarantites,3 L. G. Sobotka,3 R. T. deSouza,4 T. Barczyk,5 K. Grotowski,5 S. Micek,5 R. Płaneta,5 and Z. Sosin5 1Departments of Chemistry and Physics, University of Rochester, Rochester, New York 14627, USA 2Heavy-Ion Laboratory, Warsaw University,(More)
The Broad RAnge Hadron Magnetic Spectrometer (BRAHMS) experiment [1] is dedicated to investigate the ultrarelativistic heavy ion collisions at RHIC (Relativistic Heavy Ion Collider) facility. The BRAHMS set up is designed to measure charged hadrons over a wide range of rapidity and transverse momentum for all available beams and energies. The design of the(More)
  • 1