Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions

W. Q. Shen; M. B. Tsang; N. Carlin; R. J. Charity; J. Feng; C. K. Gelbke; W. C. Hsi; M. J. Huang; G. J. Kunde; M. C. Lemaire; M. A. Lisa; W. G. Lynch; U. Lynen; Y. G. Ma; G. F. Peaslee; L. Phair; J. Pochodzalla; H. Sann; C. Schwarz; L. G. Sobotka; R. T. de Souza; S. R. Souza; W. Trautmann; C. Williams

doi:10.1103/PhysRevC.57.1508

Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions

W. Q. Shen
, M. B. Tsang
, N. Carlin
, R. J. Charity
, J. Feng
, C. K. Gelbke
, W. C. Hsi
, M. J. Huang
, G. J. Kunde
, M. C. Lemaire
, M. A. Lisa
, W. G. Lynch
, U. Lynen
, Y. G. Ma
, G. F. Peaslee
, L. Phair
, J. Pochodzalla
, H. Sann
, C. Schwarz
, L. G. Sobotka

R. T. de Souza, S. R. Souza, W. Trautmann, C. Williams

Department of Chemistry

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

8 Scopus citations

Abstract

Two-particle azimuthal correlations have been used to extract reaction plane dispersion free triple-differential cross sections for [Formula Presented], [Formula Presented], and [Formula Presented] particles for the midcentral collisions of [Formula Presented] at [Formula Presented], 55, and 70 MeV. Both experimental measurements and extrapolations from lower incident energies suggest that rotational flow disappears at [Formula Presented] MeV for light charged particles and that reaction plane dispersions introduce large uncertainties in extracting the disappearance of rotational flow.

Original language	English
Pages (from-to)	1508-1511
Number of pages	4
Journal	Physical Review C - Nuclear Physics
Volume	57
Issue number	3
DOIs	https://doi.org/10.1103/PhysRevC.57.1508
State	Published - 1998

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Shen, W. Q., Tsang, M. B., Carlin, N., Charity, R. J., Feng, J., Gelbke, C. K., Hsi, W. C., Huang, M. J., Kunde, G. J., Lemaire, M. C., Lisa, M. A., Lynch, W. G., Lynen, U., Ma, Y. G., Peaslee, G. F., Phair, L., Pochodzalla, J., Sann, H., Schwarz, C., ... Williams, C. (1998). Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions. Physical Review C - Nuclear Physics, 57(3), 1508-1511. https://doi.org/10.1103/PhysRevC.57.1508

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title = "Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions",

abstract = "Two-particle azimuthal correlations have been used to extract reaction plane dispersion free triple-differential cross sections for [Formula Presented], [Formula Presented], and [Formula Presented] particles for the midcentral collisions of [Formula Presented] at [Formula Presented], 55, and 70 MeV. Both experimental measurements and extrapolations from lower incident energies suggest that rotational flow disappears at [Formula Presented] MeV for light charged particles and that reaction plane dispersions introduce large uncertainties in extracting the disappearance of rotational flow.",

author = "Shen, \{W. Q.\} and Tsang, \{M. B.\} and N. Carlin and Charity, \{R. J.\} and J. Feng and Gelbke, \{C. K.\} and Hsi, \{W. C.\} and Huang, \{M. J.\} and Kunde, \{G. J.\} and Lemaire, \{M. C.\} and Lisa, \{M. A.\} and Lynch, \{W. G.\} and U. Lynen and Ma, \{Y. G.\} and Peaslee, \{G. F.\} and L. Phair and J. Pochodzalla and H. Sann and C. Schwarz and Sobotka, \{L. G.\} and \{de Souza\}, \{R. T.\} and Souza, \{S. R.\} and W. Trautmann and C. Williams",

year = "1998",

doi = "10.1103/PhysRevC.57.1508",

language = "English",

volume = "57",

pages = "1508--1511",

journal = "Physical Review C - Nuclear Physics",

issn = "0556-2813",

number = "3",

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Shen, WQ, Tsang, MB, Carlin, N, Charity, RJ, Feng, J, Gelbke, CK, Hsi, WC, Huang, MJ, Kunde, GJ, Lemaire, MC, Lisa, MA, Lynch, WG, Lynen, U, Ma, YG, Peaslee, GF, Phair, L, Pochodzalla, J, Sann, H, Schwarz, C, Sobotka, LG, de Souza, RT, Souza, SR, Trautmann, W & Williams, C 1998, 'Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions', Physical Review C - Nuclear Physics, vol. 57, no. 3, pp. 1508-1511. https://doi.org/10.1103/PhysRevC.57.1508

TY - JOUR

T1 - Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions

AU - Shen, W. Q.

AU - Tsang, M. B.

AU - Carlin, N.

AU - Charity, R. J.

AU - Feng, J.

AU - Gelbke, C. K.

AU - Hsi, W. C.

AU - Huang, M. J.

AU - Kunde, G. J.

AU - Lemaire, M. C.

AU - Lisa, M. A.

AU - Lynch, W. G.

AU - Lynen, U.

AU - Ma, Y. G.

AU - Peaslee, G. F.

AU - Phair, L.

AU - Pochodzalla, J.

AU - Sann, H.

AU - Schwarz, C.

AU - Sobotka, L. G.

AU - de Souza, R. T.

AU - Souza, S. R.

AU - Trautmann, W.

AU - Williams, C.

PY - 1998

Y1 - 1998

N2 - Two-particle azimuthal correlations have been used to extract reaction plane dispersion free triple-differential cross sections for [Formula Presented], [Formula Presented], and [Formula Presented] particles for the midcentral collisions of [Formula Presented] at [Formula Presented], 55, and 70 MeV. Both experimental measurements and extrapolations from lower incident energies suggest that rotational flow disappears at [Formula Presented] MeV for light charged particles and that reaction plane dispersions introduce large uncertainties in extracting the disappearance of rotational flow.

AB - Two-particle azimuthal correlations have been used to extract reaction plane dispersion free triple-differential cross sections for [Formula Presented], [Formula Presented], and [Formula Presented] particles for the midcentral collisions of [Formula Presented] at [Formula Presented], 55, and 70 MeV. Both experimental measurements and extrapolations from lower incident energies suggest that rotational flow disappears at [Formula Presented] MeV for light charged particles and that reaction plane dispersions introduce large uncertainties in extracting the disappearance of rotational flow.

UR - https://www.scopus.com/pages/publications/0032364769

U2 - 10.1103/PhysRevC.57.1508

DO - 10.1103/PhysRevC.57.1508

M3 - Article

AN - SCOPUS:0032364769

SN - 0556-2813

VL - 57

SP - 1508

EP - 1511

JO - Physical Review C - Nuclear Physics

JF - Physical Review C - Nuclear Physics

IS - 3

ER -

Disappearance of rotational flow and reaction plane dispersions in Kr+Au collisions

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