On systems of self-gravitating bosons and fermions undergoing quantum condensation. Newtonian approach.

Details On systems of self-gravitating bosons and fermions undergoing quantum condensation. Newtonian approach. On systems of self-gravitating bosons and fermions undergoing quantum condensation. Newtonian approach.

Apr 1988

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1988ncimb.101..369i&link_type=abstract

Nuovo Cimento B, Vol. 101, No. 4, p. 369 - 394

Physics

10

Elementary Particles: Quantum Gravity

Scientific paper

A system of N self-gravitating bosons or fermions can, by loss of total energy, concentrate, grain gravitational energy, and heat up. If the particle number N is smaller than a critical number, the system can heat up to temperatures and concentrate to densities such that some particles will reach a quantum ground state, functional of the total particle number. By further cooling of the system, the N particles approach well-known fully condensed or fully degenerate configurations. The concept of maximum temperature for a self-gravitating Bose and Fermi system is introduced.

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