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Author Wieloch, A. ♦ Plagnol, E. ♦ Cussol, D. ♦ Peter, J. ♦ Assenard, M. ♦ Auger, G. ♦ Bacri, C. O. ♦ Bocage, F. ♦ Borderie, B. ♦ Bougault, R. ♦ Brou, R. ♦ Buchet, P. ♦ Charvet, J. L. ♦ Chbihi, A. ♦ Colin, J. ♦ Demeyer, A. ♦ Dore, D. ♦ Durand, D. Dominique ♦ Eudes, P. ♦ Frankland, J. D. ♦ Galichet, E. ♦ Genouin-Duhamel, E. ♦ Gerlic, E. ♦ Germain, Marie ♦ Gourio, D. ♦ Guinet, D. ♦ Gulminelli, F. ♦ Lautesse, P. ♦ Laville, J. L. ♦ Lecolley, J. F. ♦ Fevre, A. Le ♦ Lefort, T. ♦ Legrain, R. ♦ Lopez, O. ♦ Louvel, M. ♦ Nalpas, L. ♦ Nguyen, A. D. ♦ Pârlog, M. ♦ Politi, G. ♦ Rahmani, A. ♦ Reposeur, T. ♦ Rivet, M. F. ♦ Rosato, E. ♦ Saint-Laurent, F. ♦ Salou, S. ♦ Steckmeyer, J. C. ♦ Stern, M. ♦ Tabacaru, G. ♦ Tamain, B. ♦ Tassan-Got, L. ♦ Tirel, O. ♦ Vient, E. ♦ Volant, C. ♦ Wieleczko, J. P.
Source Hyper Articles en Ligne (HAL)
Content type Text
Publisher Elsevier
File Format PDF
Language English
Subject Keyword phys ♦ Physics [physics]/Nuclear Experiment [nucl-ex]
Abstract Thermal scaling (Arrhenius law for an “elementary” probability p of binomial function) and reducibility in intermediate mass fragments (IMF's) production are examined for data of the reaction 129Xe+ natSn at 50 MeV/u. The study of the longitudinal velocities and of the average transverse energies of the IMF's contradicts the assumption that the total transverse energy of all detected particles Et is related to a well defined temperature.
ISSN 03702693
Educational Use Research
Learning Resource Type Article
Publisher Date 1998-01-01
Journal Physics Letters B
Volume Number 432
Page Count 8
Starting Page 29
Ending Page 36