排序方式: 共有6条查询结果,搜索用时 15 毫秒
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Wang S Albergo S Bieser F Brady FP Caccia Z Cebra DA Chacon AD Chance JL Choi Y Costa S Elliott JB Gilkes ML Hauger JA Hirsch AS Hjort EL Insolia A Justice M Keane D Kintner J Lisa MA Matis HS McMahan M McParland C Olson DL Partlan MD Porile NT Potenza R Rai G Rasmussen J Ritter HG Romanski J Romero JL Russo GV Scharenberg RP Scott A Shao Y Srivastava BK Symons TJ Tincknell ML Tuvè C Warren PG Weerasundara D Wieman HH Wolf KL 《Physical review letters》1995,75(14):2646-2649
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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 Lisa MA Matis HS McMahan M McParland C 《Physical review letters》2000,85(6):1194-1197
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. 相似文献
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Albergo S Bellwied R Bennett M Boemi D Bonner B Caines H Christie W Costa S Crawford HJ Cronqvist M Debbe R Engelage J Flores I Greiner L Hallman T Hijazi G Hoffmann G Huang HZ Humanic TJ Insolia A Jensen P Judd EG Kainz K Kaplan M Kelly S Kotov I Kunde G Lindstrom PJ Ljubicic T Llope W LoCurto G Longacre R Lynn D Madansky L Mahzeh N Milosevich Z Mitchell JM Mitchell JW Nehmeh S Nociforo C Paganis S Pandey SU Potenza R Russ DE Saulys A Schambach J Sheen J Sugarbaker E Takahashi J Tang J 《Physical review letters》2002,88(6):062301
E896 has measured Lambda production in 11.6A GeV/c Au-Au collisions over virtually the whole rapidity phase space. The midrapidity p(t) distributions have been measured for the first time at this energy and appear to indicate that the Lambda hyperons have different freeze-out conditions than protons. A comparison with the relativistic quantum molecular dynamics model shows that while there is good shape agreement at high rapidity the model predicts significantly different slopes of the m(t) spectra at midrapidity. The data, where overlap occurs, are consistent with previously reported measurements. 相似文献
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Partlan MD Albergo S Bieser F Brady FP Caccia Z Cebra D Chacon AD Chance J Choi Y Costa S Elliott JB Gilkes ML Hauger JA Hirsch AS Hjort EL Insolia A Justice M Keane D Kintner J Lisa MA Matis HS McMahan M McParland C Olson DL Peilert G Porile NT Potenza R Rai G Rasmussen J Ritter HG Romanski J Romero JL Russo GV Scharenberg RP Scott A Shao Y Srivastava BK Symons TJ Tincknell ML Tuvé C Wang S Warren PG Wieman HH Wolf K 《Physical review letters》1995,75(11):2100-2103
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Gilkes ML Albergo S Bieser F Brady FP Caccia Z Cebra DA Chacon AD Chance JL Choi Y Costa S Elliott JB Hauger JA Hirsch AS Hjort EL Insolia A Justice M Keane D Kintner JC Lindenstruth V Lisa MA Lynen U Matis HS McMahan M McParland C Müller WF Olson DL Partlan MD Porile NT Potenza R Rai G Rasmussen J Ritter HG Romanski J Romero JL Russo GV Sann H Scharenberg R Scott A Shao Y Srivastava BK Symons TJ Tincknell M Tuvé C Wang S Warren P Wieman HH Wolf K 《Physical review letters》1994,73(12):1590-1593
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Wang S Lisa MA Albergo S Bieser F Brady FP Caccia Z Cebra DA Chacon AD Chance JL Choi Y Costa S Elliott JB Gilkes ML Hauger JA Hirsch AS Hjort EL Insolia A Justice M Keane D Kintner J Lindenstruth V Liu H Matis HS McMahan M McParland C Olson DL Partlan MD Porile NT Potenza R Rai G Rasmussen J Ritter HG Romanski J Romero JL Russo GV Scharenberg RP Scott A Shao Y Srivastava BK Symons TJ Tincknell ML Tuvè C Warren PG Weerasundara D Wieman HH Wolf KL 《Physical review letters》1996,76(21):3911-3914
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