Dynamics of radial collective energy in near central collisions for [Formula Presented]

J. Lauret; S. Albergo; F. Bieser; N. N. Ajitanand; John M. Alexander; F. P. Brady; Z. Caccia; D. Cebra; A. D. Chacon; J. L. Chance; Y. Choi; P. Chung; S. Costa; P. Danielewicz; J. B. Elliott; M. Gilkes; J. A. Hauger; A. S. Hirsch; E. L. Hjort; A. Insolia; M. Justice; D. Keane; J. Kintner; Roy A. Lacey; V. Lindenstruth; M. A. Lisa; H. S. Matis; R. McGrath; M. McMahan; C. McParland; W. F.J. Müller; D. L. Olson; M. D. Partlan; N. T. Porile; R. Potenza; G. Rai; J. Rasmussen; H. G. Ritter; J. Romanski; J. L. Romero; G. V. Russo; H. Sann; R. Scharenberg; A. Scott; Y. Shao; B. K. Srivastava; T. J.M. Symons; M. Tincknell; C. Tuvè; S. Wang; P. Warren; T. Wienold; H. H. Wieman; K. Wolf

doi:10.1103/PhysRevC.57.R1051

Dynamics of radial collective energy in near central collisions for [Formula Presented]

J. Lauret
, S. Albergo
, F. Bieser
, N. N. Ajitanand
, John M. Alexander
, F. P. Brady
, Z. Caccia
, D. Cebra
, A. D. Chacon
, J. L. Chance
, Y. Choi
, P. Chung
, S. Costa
, P. Danielewicz
, J. B. Elliott
, M. Gilkes
, J. A. Hauger
, A. S. Hirsch
, E. L. Hjort
, A. Insolia

M. Justice, D. Keane, J. Kintner, Roy A. Lacey, V. Lindenstruth, M. A. Lisa, H. S. Matis, R. McGrath, M. McMahan, C. McParland, W. F.J. Müller, D. L. Olson, M. D. Partlan, N. T. Porile, R. Potenza, G. Rai, J. Rasmussen, H. G. Ritter, J. Romanski, J. L. Romero, G. V. Russo, H. Sann, R. Scharenberg, A. Scott, Y. Shao, B. K. Srivastava, T. J.M. Symons, M. Tincknell, C. Tuvè, S. Wang, P. Warren, T. Wienold, H. H. Wieman, K. Wolf

Chemistry

Stony Brook University
National Institute for Nuclear Physics
Lawrence Berkeley National Laboratory
University of California at Davis
Texas A&M University
Sungkyunkwan University
Michigan State University
Purdue University
Kent State University
GSI Helmholtz Centre for Heavy Ion Research

Research output: Contribution to journal › Article › peer-review

20 Scopus citations

Abstract

Transverse kinetic energies of individual fragments have been measured over a broad range of emitter excitation energies for the reaction [Formula Presented] For excitation energies leading to large intermediate mass fragment multiplicities, these transverse energies require large collective radial expansion of the emitting systems. However, the traditional decomposition of the transverse energy into a thermal component and a Coulomb and collective component proportional to the fragment mass cannot account for this expansion. Expansion velocities show an increase with decreasing fragment [Formula Presented] and thus indicate fractionation of the collective energy for the expanding system. This collective energy increases with emitter excitation up to about 50% of the energy deposited for a nuclear system with total energy [Formula Presented] The bulk of the collective energy is carried away by ejectiles of [Formula Presented].

Original language	English
Pages (from-to)	R1051-R1055
Journal	Physical Review C - Nuclear Physics
Volume	57
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.57.R1051
State	Published - 1998

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10.1103/PhysRevC.57.R1051

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Lauret, J., Albergo, S., Bieser, F., Ajitanand, N. N., Alexander, J. M., Brady, F. P., Caccia, Z., Cebra, D., Chacon, A. D., Chance, J. L., Choi, Y., Chung, P., Costa, S., Danielewicz, P., Elliott, J. B., Gilkes, M., Hauger, J. A., Hirsch, A. S., Hjort, E. L., ... Wolf, K. (1998). Dynamics of radial collective energy in near central collisions for [Formula Presented]. Physical Review C - Nuclear Physics, 57(3), R1051-R1055. https://doi.org/10.1103/PhysRevC.57.R1051

@article{b3236c3b7a3d404288542ce3ea2c9447,

title = "Dynamics of radial collective energy in near central collisions for [Formula Presented]",

abstract = "Transverse kinetic energies of individual fragments have been measured over a broad range of emitter excitation energies for the reaction [Formula Presented] For excitation energies leading to large intermediate mass fragment multiplicities, these transverse energies require large collective radial expansion of the emitting systems. However, the traditional decomposition of the transverse energy into a thermal component and a Coulomb and collective component proportional to the fragment mass cannot account for this expansion. Expansion velocities show an increase with decreasing fragment [Formula Presented] and thus indicate fractionation of the collective energy for the expanding system. This collective energy increases with emitter excitation up to about 50\% of the energy deposited for a nuclear system with total energy [Formula Presented] The bulk of the collective energy is carried away by ejectiles of [Formula Presented].",

author = "J. Lauret and S. Albergo and F. Bieser and Ajitanand, \{N. N.\} and Alexander, \{John M.\} and Brady, \{F. P.\} and Z. Caccia and D. Cebra and Chacon, \{A. D.\} and Chance, \{J. L.\} and Y. Choi and P. Chung and S. Costa and P. Danielewicz and Elliott, \{J. B.\} and M. Gilkes and Hauger, \{J. A.\} and Hirsch, \{A. S.\} and Hjort, \{E. L.\} and A. Insolia and M. Justice and D. Keane and J. Kintner and Lacey, \{Roy A.\} and V. Lindenstruth and Lisa, \{M. A.\} and Matis, \{H. S.\} and R. McGrath and M. McMahan and C. McParland and M{\"u}ller, \{W. F.J.\} and Olson, \{D. L.\} and Partlan, \{M. D.\} and Porile, \{N. T.\} and R. Potenza and G. Rai and J. Rasmussen and Ritter, \{H. G.\} and J. Romanski and Romero, \{J. L.\} and Russo, \{G. V.\} and H. Sann and R. Scharenberg and A. Scott and Y. Shao and Srivastava, \{B. K.\} and Symons, \{T. J.M.\} and M. Tincknell and C. Tuv{\`e} and S. Wang and P. Warren and T. Wienold and Wieman, \{H. H.\} and K. Wolf",

year = "1998",

doi = "10.1103/PhysRevC.57.R1051",

language = "English",

volume = "57",

pages = "R1051--R1055",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

number = "3",

}

Lauret, J, Albergo, S, Bieser, F, Ajitanand, NN, Alexander, JM, Brady, FP, Caccia, Z, Cebra, D, Chacon, AD, Chance, JL, Choi, Y, Chung, P, Costa, S, Danielewicz, P, Elliott, JB, Gilkes, M, Hauger, JA, Hirsch, AS, Hjort, EL, Insolia, A, Justice, M, Keane, D, Kintner, J, Lacey, RA, Lindenstruth, V, Lisa, MA, Matis, HS, McGrath, R, McMahan, M, McParland, C, Müller, WFJ, 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, TJM, Tincknell, M, Tuvè, C, Wang, S, Warren, P, Wienold, T, Wieman, HH & Wolf, K 1998, 'Dynamics of radial collective energy in near central collisions for [Formula Presented]', Physical Review C - Nuclear Physics, vol. 57, no. 3, pp. R1051-R1055. https://doi.org/10.1103/PhysRevC.57.R1051

TY - JOUR

T1 - Dynamics of radial collective energy in near central collisions for [Formula Presented]

AU - Lauret, J.

AU - Albergo, S.

AU - Bieser, F.

AU - Ajitanand, N. N.

AU - Alexander, John M.

AU - Brady, F. P.

AU - Caccia, Z.

AU - Cebra, D.

AU - Chacon, A. D.

AU - Chance, J. L.

AU - Choi, Y.

AU - Chung, P.

AU - Costa, S.

AU - Danielewicz, P.

AU - Elliott, J. B.

AU - Gilkes, M.

AU - Hauger, J. A.

AU - Hirsch, A. S.

AU - Hjort, E. L.

AU - Insolia, A.

AU - Justice, M.

AU - Keane, D.

AU - Kintner, J.

AU - Lacey, Roy A.

AU - Lindenstruth, V.

AU - Lisa, M. A.

AU - Matis, H. S.

AU - McGrath, R.

AU - McMahan, M.

AU - McParland, C.

AU - Müller, W. F.J.

AU - Olson, D. L.

AU - Partlan, M. D.

AU - Porile, N. T.

AU - Potenza, R.

AU - Rai, G.

AU - Rasmussen, J.

AU - Ritter, H. G.

AU - Romanski, J.

AU - Romero, J. L.

AU - Russo, G. V.

AU - Sann, H.

AU - Scharenberg, R.

AU - Scott, A.

AU - Shao, Y.

AU - Srivastava, B. K.

AU - Symons, T. J.M.

AU - Tincknell, M.

AU - Tuvè, C.

AU - Wang, S.

AU - Warren, P.

AU - Wienold, T.

AU - Wieman, H. H.

AU - Wolf, K.

PY - 1998

Y1 - 1998

N2 - Transverse kinetic energies of individual fragments have been measured over a broad range of emitter excitation energies for the reaction [Formula Presented] For excitation energies leading to large intermediate mass fragment multiplicities, these transverse energies require large collective radial expansion of the emitting systems. However, the traditional decomposition of the transverse energy into a thermal component and a Coulomb and collective component proportional to the fragment mass cannot account for this expansion. Expansion velocities show an increase with decreasing fragment [Formula Presented] and thus indicate fractionation of the collective energy for the expanding system. This collective energy increases with emitter excitation up to about 50% of the energy deposited for a nuclear system with total energy [Formula Presented] The bulk of the collective energy is carried away by ejectiles of [Formula Presented].

AB - Transverse kinetic energies of individual fragments have been measured over a broad range of emitter excitation energies for the reaction [Formula Presented] For excitation energies leading to large intermediate mass fragment multiplicities, these transverse energies require large collective radial expansion of the emitting systems. However, the traditional decomposition of the transverse energy into a thermal component and a Coulomb and collective component proportional to the fragment mass cannot account for this expansion. Expansion velocities show an increase with decreasing fragment [Formula Presented] and thus indicate fractionation of the collective energy for the expanding system. This collective energy increases with emitter excitation up to about 50% of the energy deposited for a nuclear system with total energy [Formula Presented] The bulk of the collective energy is carried away by ejectiles of [Formula Presented].

UR - https://www.scopus.com/pages/publications/0032363691

U2 - 10.1103/PhysRevC.57.R1051

DO - 10.1103/PhysRevC.57.R1051

M3 - Article

AN - SCOPUS:0032363691

SN - 0556-2813

VL - 57

SP - R1051-R1055

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 3

ER -

Dynamics of radial collective energy in near central collisions for [Formula Presented]

Abstract

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