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Scaling of fragment sizes in statistical models (I)

Scaling of fragment sizes in statistical models (I). F. 8x8x8. 100x100x100. r c. r c. 2. Lattice Gas 8x8x8. thermodynamic coexistence zone. locus of "critical" points from scaling. P.Chomaz et al. Int.Journ.Mod.Phys.E8(1999)527. Scaling in the coexistence zone:

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Scaling of fragment sizes in statistical models (I)

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  1. Scaling of fragment sizes in statistical models (I) F 8x8x8 100x100x100 rc rc 2 Lattice Gas 8x8x8 thermodynamic coexistence zone locus of "critical" points from scaling P.Chomaz et al. Int.Journ.Mod.Phys.E8(1999)527 Scaling in the coexistence zone: a finite size effect

  2. Scaling of fragment sizes in statistical models (II) F raduta et raduta smm Scaling in the coexistence zone: a finite size effect A.Raduta et al. PRC 65(2002)034606

  3. Ising versus IMFM: the effect of mass conservation F two different trajectories for the same density Ising: an infinite particle reservoir dN/dA Ising Ising Temperature T IMFM: a strict mass conservation IMFM density A/V the LG coexistence region can be explored only if mass conservation holds number of particles A

  4. Fisher scaling in the IMFM or Canonical Lattice Gas F thermodynamic coexistence zone coexistence zone from the Fisher hypothesis of an ideal gas of fragments pV= S niT "critical points" from scaling at the densities r0/8, r0/4, r0/2, 4/5r0 locus of "critical" points from scaling F.Gulminelli et al. PRC65(2002)51601

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