EPJ Web Conf.
Volume 138, 2017XXIII International Baldin Seminar on High Energy Physics Problems Relativistic Nuclear Physics and Quantum Chromodynamics (Baldin ISHEPP XXIII)
|Number of page(s)||10|
|Published online||27 March 2017|
Investigation of the compressed baryonic matter at the GSI accelerator complex*
1 Joint Institute for Nuclear Research, Dubna, Russian Federation
2 Institut für Kernphysik, Goethe Universitüt Frankfurt, Frankfurt, Germany
3 Institute of Applied Physics of ASM, Kishinev, Moldova
4 National Science Center, Kharkov Institute of Physics and Technology, Kharkov, Ukraine
5 State University of St.Petersburg„ St.Petersburg, Russian Federation
6 Skobeltsyn Institute of Nuclear Physics of Moscow State University, Moscow, Russian Federation
7 Frankfurt Institute for Advanced Studies, Goethe-Universität Frankfurt, Frankfurt, Germany
8 State Enterprise PLANAR, Minsk, Belarus
** e-mail: firstname.lastname@example.org
Published online: 27 March 2017
The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of the QCD phase diagram in the region of high net-baryon densities, because it is designed to run at unprecedented interaction rates. High-rate operation is the key prerequisite for high-precision measurements of multi-differential observables and of rare diagnostic probes which are sensitive to the dense phase of the nuclear fireball. The goal of the CBM experiment at SIS100 (√sNN = 2-4.9 GeV) is to discover fundamental properties of QCD matter, namely, the equation-of-state at high density as it is expected to occur in the core of neutron stars, effects of chiral symmetry, and the phase structure at large baryon-chemical potentials (μB ≥ 500 MeV).
We are focusing here on the contribution of JINR to the CBM experiment: design of the superconducting dipole magnet; manufacture of the straw and micro-strip silicon detectors, participation in the data taking and analysis algorithms and physics program.
© The Authors, published by EDP Sciences, 2017
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