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de V, Sébille, Farine, Remaud, Schuck (1992)
Analysis of the transverse momentum collective motion in heavy-ion collisions below 100 MeV/nucleon.Physical review. C, Nuclear physics, 46 2
D. Krofcheck, W. Bauer, G. Crawley, C. Djalali, S. Howden, C. Ogilvie, A. Molen, G. Westfall, W. Wilson, R. Tickle, C. Gale (1989)
Disappearance of flow in heavy-ion collisions.Physical review letters, 63 19
R. Pak, Bao-An Li, W. Benenson, O. Bjarki, J. Brown, S. Hannuschke, R. Lacey, D. Magestro, A. Nadasen, E. Norbeck, D. Russ, M. Steiner, N. Stone, A. Molen, G. Westfall, L. Yang, S. Yennello (1997)
Isospin Dependence of the Balance EnergyPhysical Review Letters, 78
R. Pak, W. Benenson, O. Bjarki, J. Brown, S. Hannuschke, R. Lacey, Bao-An Li, A. Nadasen, E. Norbeck, P. Pogodin, D. Russ, M. Steiner, N. Stone, A. Molen, G. Westfall, L. Yang, S. Yennello (1997)
Isospin Dependence of Collective Transverse Flow in Nuclear CollisionsPhysical Review Letters, 78
P. Danielewicz (1999)
Determination of the mean-field momentum-dependence using elliptic flowNuclear Physics, 673
J. Sullivan, J. Peter, D. Cussol, G. Bizard, R. Brou, M. Louvel, J. Patry, R. Régimbart, J. Steckmeyer, B. Tamain, E. Crema, H. Doubre, K. Hagel, G. Jin, A. Péghaire, F. Saint-Laurent, Y. Cassagnou, R. Légrain, C. Lebrun, E. Rosato, R. MacGrath, S. Jeong, S. Lee, Y. Nagashima, T. Nakagawa, M. Ogihara, J. Kasagi, T. Motobayashi, T. Motobayashi (1990)
Disappearance of flow as a function of impact parameter and energy in nucleus-nucleus collisionsPhysics Letters B, 249
N. Herrmann, J. Wessels, T. Wienold (1999)
COLLECTIVE FLOW IN HEAVY-ION COLLISIONSAnnual Review of Nuclear and Particle Science, 49
K. Chung, C. Wang, A. Santiago (1999)
Nuclear incompressibility determined by nuclear mass and monopole resonance energyPhysical Review C, 59
G. Peilert, H. Stocker, W. Greiner (1994)
Physics of high-energy heavy-ion collisionsReports on Progress in Physics, 57
A. Andronic (1999)
Elliptic flow and equation of state in heavy ion collisions at SIS energiesNuclear Physics, 661
Yu-Ming Zheng, C. Ko, Bao-An Li, Binghamton University, A. University (1999)
Elliptic flow in heavy ion collisions near the balance energyPhysical Review Letters, 83
Gale, Welke, Prakash, Lee, Das S (1990)
Transverse momenta, nuclear equation of state, and momentum-dependent interactions in heavy-ion collisions.Physical review. C, Nuclear physics, 41 4
W. Myers, W. Swiatecki (1998)
Nuclear equation of statePhysical Review C, 57
Klakow, Welke, Bauer (1993)
Nuclear flow excitation function.Physical review. C, Nuclear physics, 48 4
Pak, Llope, Craig, Gualtieri, Hannuschke, Lacey, Lauret, Mignerey, Russ, Stone, Vander AM, Westfall, Yee (1996)
Impact parameter dependence of the disappearance of transverse flow in nuclear collisions.Physical review. C, Nuclear physics, 53 4
H. Gutbrod, A. Poskanzer, H. Ritter (1989)
Plastic Ball experimentsReports on Progress in Physics, 52
H. Stöcker, W. Greiner (1986)
High energy heavy ion collisions—probing the equation of state of highly excited hardronic matterPhysics Reports, 137
W. Shen, J. Peter, G. Bizard, R. Brou, D. Cussol, M. Louvel, J. Patry, R. Régimbart, J. Steckmeyer, J. Sullivan, B. Tamain, E. Crema, H. Doubre, K. Hagel, G. Jin, A. Péghaire, F. Saint-Laurent, Y. Cassagnou, R. Légrain, C. Lebrun, E. Rosato, R. MacGrath, S. Jeong, S. Lee, Y. Nagashima, T. Nakagawa, M. Ogihara, J. Kasagi, T. Motobayashi (1993)
Components of collective flow and azimuthal distributions in 40Ar + 27Al and 40Ar + 58Ni collisions below 85 MeV/uNuclear Physics, 551
Krofcheck, Cebra, Cronqvist, Lacey, Li, Ogilvie, Vander A, Tyson, Westfall, Wilson, Winfield, Nadasen, Norbeck (1991)
Observation of a minimum in collective flow for Ar+V collisions.Physical review. C, Nuclear physics, 43 1
Zhang, Madey, Elaasar, Schambach, Keane, Anderson, Baldwin, Cogar, Watson, Westfall, Krebs, Wieman (1990)
Onset of flow of charged fragments in Au-Au collisions.Physical review. C, Nuclear physics, 42 2
Ogilvie, Cebra, Clayton, Danielewicz, Howden, Karn, Nadasen, Vander A, Westfall, Wilson, Winfield (1989)
Transverse collective motion in intermediate-energy heavy-ion collisions.Physical review. C, Nuclear physics, 40 6
Pan, Danielewicz (1993)
From sideward flow to nuclear compressibility.Physical review letters, 70 14
Soff, Bass, Hartnack, Stöcker, Greiner (1995)
Disappearance of flow.Physical review. C, Nuclear physics, 51 6
J. Lauret, R. Lacey, A. Elmaani, A. Tsepetis, A. Moores, G. Westfall, D. Craig, E. Gualtieri, S. Hannuschke, T. Li, W. Llope, R. Pak, N. Stone, A. Molen, J. Yee, A. Nadasen, R. Tickle, E. Norbeck (1994)
High-order azimuthal correlation functions: powerful probes for collective motion in heavy ion reactionsPhysics Letters B, 339
J. Peter (1992)
Inversion of collective matter flow and equation of stateNuclear Physics, 545
Ogilvie, Bauer, Cebra, Clayton, Howden, Karn, Nadasen, Vander A, Westfall, Wilson, Winfield (1990)
Disappearance of flow and its relevance to nuclear matter physics.Physical review. C, Nuclear physics, 42 1
P. Danielewicz, R. Lacey, P. Gossiaux, C. Pinkenburg, P. Chung, J. Alexander, R. Chemistry, Physics, S. Brook, Nscl Lab., Msu, Subatech, Nantes (1998)
Disappearance of Elliptic Flow: A New Probe for the Nuclear Equation of StatePhysical Review Letters, 81
Westfall, Bauer, Craig, Cronqvist, Gaultieri, Hannuschke, Klakow, Li, Reposeur, Vander AM, Wilson, Winfield, Yee, Yennello, Lacey, Elmaani, Lauret, Nadasen, Norbeck (1993)
Mass dependence of the disappearance of flow in nuclear collisions.Physical review letters, 71 13
D. Magestro, W. Bauer, G. Westfall (2000)
Isolation of the nuclear compressibility with the balance energyPhysical Review C, 62
Peilert, Stöcker, Greiner, Rosenhauer, Bohnet, Aichelin (1989)
Multifragmentation, fragment flow, and the nuclear equation of state.Physical review. C, Nuclear physics, 39 4
Liu, Ajitanand, Alexander, Anderson, Best, Brady, Case, Caskey, Cebra, Chance, Cole, Crowe, Das, Draper, Gilkes, Gushue, Heffner, Hirsch, Hjort, Huo, Justice, Kaplan, Keane, Kintner, Klay, Krofcheck (2000)
Sideward flow in Au+Au collisions between 2A and 8A GeVPhysical review letters, 84 24
M. Partlan, S. Albergo, F. Bieser, F. Brady, Z. Caccia, D. Cebra, A. Chacon, J. Chance, Y. Choi, S. Costa, J. Elliott, M. Gilkes, J. Hauger, A. Hirsch, E. Hjort, A. Insolia, M. Justice, D. Keane, J. Kintner, M. Lisa, H. Matis, M. McMahan, C. Mcparland, D. Olson, G. Peilert, N. Porile, R. Potenza, G. Rai, J. Rasmussen, H. Ritter, J. Romanski, J. Romero, G. Russo, R. Scharenberg, A. Scott, Y. Shao, B. Srivastava, T. Symons, M. Tincknell, C. Tuvè, S. Wang, P. Warren, H. Wieman, K. Wolf (1995)
Fragment flow in Au+Au collisions.Physical review letters, 75 11
D. Magestro, W. Bauer, O. Bjarki, J. Crispin, M. Miller, M. Tonjes, A. Molen, G. Westfall, R. Pak, E. Norbeck (2000)
Disappearance of transverse flow in [Formula Presented] collisionsPhysical Review C, 61
Pak, Bjarki, Hannuschke, Lacey, Lauret, Llope, Nadasen, Stone, Vander AM, Westfall (1996)
Momentum dependence of the nuclear mean field from peripheral heavy-ion collisions.Physical review. C, Nuclear physics, 54 5
G. Bertsch, W. Lynch, M. Tsang (1987)
Transverse momentum distributions in intermediate-energy heavy-ion collisionsPhysics Letters B, 189
A. Buta, J. Angelique, G. Auger, G. Bizard, R. Brou, C. Cabot, Y. Cassagnou, E. Crema, D. Cussol, Y. Masri, P. Eudes, M. Gonin, K. Hagel, Z. He, A. Kerambrun, C. Lebrun, R. Légrain, J. Patry, A. Péghaire, J. Peter, R. Popescu, R. Régimbart, E. Rosato, F. Saint-Laurent, J. Steckmeyer, B. Tamain, E. Vient, R. Wada (1995)
Azimuthal correlation functions and the energy of vanishing flow in nucleus-nucleus collisionsNuclear Physics, 584
Zy He, Y. Masri (1996)
Disappearance of flow and the in-medium nucleon-nucleon cross section for Zn-64+Al-27 collisions at intermediate energiesNuclear Physics, 598
E791 Collaboration, C. Pinkenburg, E. al. (1999)
Elliptic flow: Transition from out-of-plane to in-plane emission in Au + Au collisionsPhysical Review Letters, 83
J. Molitoris, H. Stöcker (1985)
Stopping power, equilibration, and collective flow in the reactions Ar + Pb and Nb + Nb — A theoretical analysisPhysics Letters B, 162
We find that results for flow and elliptic flow from Au+Au collision at 20–60 AMeV and Ar+Sc from 45 to 105 AMeV are best explained using transport models incorporating a soft equation of state.
Acta Physica Hungarica Series A, Heavy Ion Physics – Springer Journals
Published: Dec 12, 2009
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