Abstract
Possible way to create dense cold baryonic matter in the laboratory is discussed. The density of this matter is comparable or even larger than the density of neutron star core. The properties of this matter can be controlled by trigger conditions. Experimental program for the study of properties of dense cold matter for light and heavy ion collisions at initial energy range √sNN~2-3GeV is proposed..
Highlights
The density variation provides transition from one phase diagram domain to another and, provides access to new state of matter through the phase transitions. All these processes proceed at the space-time scale of the order of 1-10 fm, and one can say about an embryo of future femtotechnologies in such experiments
There have been measured by CLAS [5] two and three nucleon SRC probability for Не and C; these probabilities are shown in the table
Let us consider for the first estimate ideal detector with full particle ID in angular-momentum region
Summary
To the present time there is large uncertainty in theoretical predictions of nuclear matter’s Equation of State in the region of low temperatures and high densities. 6-8 nucleons in the volume of the order of one nucleon volume correspond to the density tens times larger ρ0, and one can expect l
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