2000
DOI: 10.1103/physrevc.62.064603
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Statistical signatures of critical behavior in small systems

Abstract: The cluster distributions of different systems are examined to search for signatures of a continuous phase transition. In a system known to possess such a phase transition, both sensitive and insensitive signatures are present; while in systems known not to possess such a phase transition, only insensitive signatures are present. It is shown that nuclear multifragmentation results in cluster distributions belonging to the former category, suggesting that the fragments are the result of a continuous phase trans… Show more

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Cited by 52 publications
(68 citation statements)
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References 96 publications
(142 reference statements)
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“…, (n − 1). Our algorithm of random partitioning differs from that of the EOS one [35] in the sense that we considered the charge of the remnant part of the projectile nucleus as the charge of the fragmenting system, not the total charge of the projectile. Our technique rests on the random selection of total charge of the fragmenting system from a uniform distribution of (1, Z proj ), while EOS's technique relies on the random selection on (1, Z proj ) of multiplicity in which the incident projectile will disintegrate.…”
Section: Resultsmentioning
confidence: 99%
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“…, (n − 1). Our algorithm of random partitioning differs from that of the EOS one [35] in the sense that we considered the charge of the remnant part of the projectile nucleus as the charge of the fragmenting system, not the total charge of the projectile. Our technique rests on the random selection of total charge of the fragmenting system from a uniform distribution of (1, Z proj ), while EOS's technique relies on the random selection on (1, Z proj ) of multiplicity in which the incident projectile will disintegrate.…”
Section: Resultsmentioning
confidence: 99%
“…We started our analysis by formulating a 'toy model' of nuclear multi-fragmentation that is different from the EOS Collaboration [35] and is based on the following algorithm: first the total charge Q PF of a fragmenting system is determined randomly from 36 total system constituents which is the charge of the projectile for present investigation. The number of prompt protons emitted from a particular event is then considered as N prompt = 36 − Q PF .…”
Section: Resultsmentioning
confidence: 99%
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