Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction

T. Lefort; L. Beaulieu; A. Botvina; D. Durand; K. Kwiatkowski; W. c. Hsi; L. Pienkowski; H. Breuer; R. G. Korteling; R. Laforest; E. Martin; E. Ramakrishnan; D. Rowland; A. Ruangma; V. E. Viola; E. Winchester; S. J. Yennello

doi:10.1103/PhysRevC.62.031604

Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction

T. Lefort, L. Beaulieu, A. Botvina, D. Durand, K. Kwiatkowski, W. c. Hsi, L. Pienkowski, H. Breuer, R. G. Korteling, R. Laforest, E. Martin, E. Ramakrishnan, D. Rowland, A. Ruangma, V. E. Viola, E. Winchester, S. J. Yennello

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Abstract

Fragment kinetic energy spectra for reactions induced by 8.0 [Formula Presented] beams on a [Formula Presented] target have been analyzed. The average fragment kinetic energies are observed to increase systematically with fragment charge but are nearly independent of excitation energy. Near [Formula Presented] MeV, the data are well accounted for by two statistical multifragmentation models, SMM and SIMON-explosion. However, at higher excitation energies, a small amount of extra energy, proportional to the fragment mass, is required in the models in order to match the experimental fragment’s kinetic energies. This extra expansion energy is small relative to the radial expansion observed in heavy-ion-induced reactions, consistent with the interpretation that the latter expansion may be driven primarily by collective dynamical effects that are not present in light-ion-induced collisions.

Original language	English
Pages (from-to)	5
Number of pages	1
Journal	Physical Review C - Nuclear Physics
Volume	62
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.62.031604
State	Published - 2000

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Lefort, T., Beaulieu, L., Botvina, A., Durand, D., Kwiatkowski, K., Hsi, W. C., Pienkowski, L., Breuer, H., Korteling, R. G., Laforest, R., Martin, E., Ramakrishnan, E., Rowland, D., Ruangma, A., Viola, V. E., Winchester, E., & Yennello, S. J. (2000). Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction. Physical Review C - Nuclear Physics, 62(3), 5. https://doi.org/10.1103/PhysRevC.62.031604

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title = "Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction",

abstract = "Fragment kinetic energy spectra for reactions induced by 8.0 [Formula Presented] beams on a [Formula Presented] target have been analyzed. The average fragment kinetic energies are observed to increase systematically with fragment charge but are nearly independent of excitation energy. Near [Formula Presented] MeV, the data are well accounted for by two statistical multifragmentation models, SMM and SIMON-explosion. However, at higher excitation energies, a small amount of extra energy, proportional to the fragment mass, is required in the models in order to match the experimental fragment{\textquoteright}s kinetic energies. This extra expansion energy is small relative to the radial expansion observed in heavy-ion-induced reactions, consistent with the interpretation that the latter expansion may be driven primarily by collective dynamical effects that are not present in light-ion-induced collisions.",

author = "T. Lefort and L. Beaulieu and A. Botvina and D. Durand and K. Kwiatkowski and Hsi, {W. c.} and L. Pienkowski and H. Breuer and Korteling, {R. G.} and R. Laforest and E. Martin and E. Ramakrishnan and D. Rowland and A. Ruangma and Viola, {V. E.} and E. Winchester and Yennello, {S. J.}",

year = "2000",

doi = "10.1103/PhysRevC.62.031604",

language = "English",

volume = "62",

pages = "5",

journal = "Physical Review C - Nuclear Physics",

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Lefort, T, Beaulieu, L, Botvina, A, Durand, D, Kwiatkowski, K, Hsi, WC, Pienkowski, L, Breuer, H, Korteling, RG, Laforest, R, Martin, E, Ramakrishnan, E, Rowland, D, Ruangma, A, Viola, VE, Winchester, E & Yennello, SJ 2000, 'Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction', Physical Review C - Nuclear Physics, vol. 62, no. 3, pp. 5. https://doi.org/10.1103/PhysRevC.62.031604

TY - JOUR

T1 - Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction

AU - Lefort, T.

AU - Beaulieu, L.

AU - Botvina, A.

AU - Durand, D.

AU - Kwiatkowski, K.

AU - Hsi, W. c.

AU - Pienkowski, L.

AU - Breuer, H.

AU - Korteling, R. G.

AU - Laforest, R.

AU - Martin, E.

AU - Ramakrishnan, E.

AU - Rowland, D.

AU - Ruangma, A.

AU - Viola, V. E.

AU - Winchester, E.

AU - Yennello, S. J.

PY - 2000

Y1 - 2000

N2 - Fragment kinetic energy spectra for reactions induced by 8.0 [Formula Presented] beams on a [Formula Presented] target have been analyzed. The average fragment kinetic energies are observed to increase systematically with fragment charge but are nearly independent of excitation energy. Near [Formula Presented] MeV, the data are well accounted for by two statistical multifragmentation models, SMM and SIMON-explosion. However, at higher excitation energies, a small amount of extra energy, proportional to the fragment mass, is required in the models in order to match the experimental fragment’s kinetic energies. This extra expansion energy is small relative to the radial expansion observed in heavy-ion-induced reactions, consistent with the interpretation that the latter expansion may be driven primarily by collective dynamical effects that are not present in light-ion-induced collisions.

AB - Fragment kinetic energy spectra for reactions induced by 8.0 [Formula Presented] beams on a [Formula Presented] target have been analyzed. The average fragment kinetic energies are observed to increase systematically with fragment charge but are nearly independent of excitation energy. Near [Formula Presented] MeV, the data are well accounted for by two statistical multifragmentation models, SMM and SIMON-explosion. However, at higher excitation energies, a small amount of extra energy, proportional to the fragment mass, is required in the models in order to match the experimental fragment’s kinetic energies. This extra expansion energy is small relative to the radial expansion observed in heavy-ion-induced reactions, consistent with the interpretation that the latter expansion may be driven primarily by collective dynamical effects that are not present in light-ion-induced collisions.

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U2 - 10.1103/PhysRevC.62.031604

DO - 10.1103/PhysRevC.62.031604

M3 - Article

AN - SCOPUS:85035300050

SN - 0556-2813

VL - 62

SP - 5

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 3

ER -

Thermal expansion effects in the 8 GeV/c [Formula Presented] reaction

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