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Source Shape Determination with Directional Fragment–fragment Velocity Correlations

A. Le Fevre,C. Schwarz,G. Auger,M. L. Begemann-Blaich,N. Bellaize,R. Bittiger,F. Bocage,B. Borderie,R. Bougault,B. Bouriquet, U. Charvet,A. Chbihi,R. Dayras,D. Durand,J. D. Frankland,E. Galichet,D. Gourio,D. Guinet,S. Hudan,P. Lautesse, F. Lavaud, R. Legrain, O. Lopez, J. Lukasik, U. Lynen, W. F. J. Mueller, L. Nalpas, H. Orth, E. Plagnol, E. Rosato, A. Saija, C. Sfienti, B. Tarnain, W. Trautmann, A. Trzcinski, K. Turzo, E. Vient, M. Vigilante, C. Volant, B. Zwieglinski

Physics letters B(2008)

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摘要
Correlation functions, constructed from directional projections of the relative velocities of fragments, are used to determine the shape of the breakup volume in coordinate space. For central collisions of 129Xe+natSn at 50 MeV per nucleon incident energy, measured with the 4π multidetector INDRA at GSI, a prolate shape aligned along the beam direction with an axis ratio of 1:0.7 is deduced. The sensitivity of the method is discussed in comparison with conventional fragment–fragment velocity correlations.
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关键词
heavy ion collisions,multifragmentation,breakup state,correlation functions
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