Nuclear multifragmentation, percolation, and the fisher droplet model: common features of reducibility and thermal scaling

Nuclear multifragmentation, percolation, and the fisher droplet model: common features of reducibility and thermal scaling

It is shown that the Fisher droplet model, percolation, and nuclear multifragmentation share the common features of reducibility (stochasticity in multiplicity distributions) and thermal scaling (one-fragment production probabilities are Boltzmann factors). Barriers obtained, for cluster production...

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Veröffentlicht in:Physical review letters 2000-08, Vol.85 (6), p.1194-1197
Hauptverfasser: Elliott, JB, Moretto, LG, Phair, L, Wozniak, GJ, Albergo, S, Bieser, F, Brady, FP, Caccia, Z, Cebra, DA, Chacon, AD, Chance, JL, Choi, Y, Costa, S, Gilkes, ML, Hauger, JA, Hirsch, AS, Hjort, EL, Insolia, A, Justice, M, Keane, D, Kintner, JC, Lindenstruth, V, V, Lisa, MA, Matis, HS, McMahan, M, McParland, C
Format: Artikel
Sprache:eng
Schlagworte:
DROPLET MODEL
EXPERIMENTAL DATA
GOLD
HEAVY ION REACTIONS
NUCLEAR FRAGMENTATION
NUCLEAR PHYSICS AND RADIATION PHYSICS
SCALING LAWS
THEORETICAL DATA
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Zusammenfassung:It is shown that the Fisher droplet model, percolation, and nuclear multifragmentation share the common features of reducibility (stochasticity in multiplicity distributions) and thermal scaling (one-fragment production probabilities are Boltzmann factors). Barriers obtained, for cluster production on percolation lattices, from the Boltzmann factors show a power-law dependence on cluster size with an exponent of 0.42+/-0.02. The EOS Collaboration Au multifragmentation data yield barriers with a power-law exponent of 0.68+/-0.03. Values of the surface energy coefficient of a low density nuclear system are also extracted.
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.85.1194