2023 Impact factor 2.6
Hadrons and Nuclei
Eur. Phys. J A 2, 61-67


Bounce - off in 197Au induced collisions with Ag(Br) nuclei at 11.6 A GeV/c

M.I. Adamovich14 - M.M. Aggarwal4 - Y.A. Alexandrov14 - R. Amirikas18 - N.P. Andreeva1 - Z.V. Anzon1 - F.A. Avetyan22 - S.K. Badyal8 - A.M. Bakich18 - E. Basova17 - K.B. Bhalla7 - A. Bhasin8 - V.S. Bhatia4 - V.G. Bogdanov17 - V. Bradnova6 - V.I. Bubnov1 - X. Cai21 - I.Y. Chasnikov1 - G.M. Chen2 - L.P. Chernova20 - M.M. Chernyavsky14 - S. Dhamija4 - K. El Chenawi12 - G.Z. Eligbaeva1 - L.E. Eremenko1 - D. Felea3 - S.Q. Feng21 - A.S. Gaitinov1 - E.R. Ganssauge13 - S. Garpman12 - S.G. Gerassimov14 - A. Gheata3 - M. Gheata3 - J. Grote15 - K.G. Gulamov20 - S.K. Gupta7 - V.K. Gupta8 - M. Haiduc3 - D. Hasegan3 - U. Henjes13 - B. Jakobsson12 - L. Just10 - G.S. Kalyachkina1 - E.K. Kanygina1 - M. Karabová9 - S.P. Kharlamov14 - I.C. Kim16 - A.D. Kovalenko6 - S.A. Krasnov6 - V. Kumar7 - V.G. Larionova14 - C.G. Lee16 - Y.X. Li5 - L.S. Liu21 - Z.G.Liu5 - S. Lokanatan7 - J.J. Lord15 - Y. Lu2 - N.S. Lukicheva20 - S.B. Luo11 - L.K. Mangotra8 - I. Manhas8 - N.A. Marutyan22 - Y.A. Mashkov20 - N.V. Maslennikova14 - I.S. Mittra4 - A.K. Musaeva1 - S.Z. Nasyrov19 - V.S. Navotny20 - J. Nystrand12 - G.I. Orlova14 - I. Otterlund12 - A. Pavuková9 - L.S. Peak18 - N.G. Peresadko14 - N.V. Petrov19 - V.A. Plyushchev17 - W.Y. Qian21 - Y.M. Qin11 - R. Raniwala7 - N.K. Rao8 - J.-T. Rhee16 - M. Roeper13 - V.V. Rusakova6 - N. Saidkhanov20 - N.A. Salmanova14 - L.G. Sarkisova22 - V.R. Sarkisyan22 - A.M. Seitimbetov1 - R. Sethi4 - C.I. Shakhova1 - B. Singh7 - D. Skelding15 - K. Söderström12 - E. Stenlund12 - L.N. Svechnikova20 - A.M. Tawfik13 - M.I. Tretyakova14 - T.P. Trofimova19 - U.I. Tuleeva19 - B.P. Tursunov19 - V. Vashisht4 - S. Vokál9 - J. Vrláková9 - H.Q. Wang1#1 - H.S. Wang2 - X.R. Wang21 - Z.Q. Weng5 - R.J. Wilkes15 - C.B. Yang21 - Z.B. Yin21 - L.Z. Yu21 - D.H. Zhang11 - P.Y. Zheng2 - S.I. Zhokhova20 - D.C. Zhou21

1 Energy Physics Institute, Almaty, Kazakhstan
2 Institute of High Energy Physics, Academica Sinica, Beijing, People's Republic of China
3 Institution for Gravitation and Space Research, Bucharest, Romania
4 Department of Physics, Panjab University, Chandigarh, India
5 Department of Physics, Hunan Education Institute, Changsa, Hunan, People's Republic of China
6 Laboratory of High Energies, Joint Institute for Nuclear Research (JINR), Dubna, Russia
7 Department of Physics, University of Rajasthan, Jaipur, India
8 Department of Physics, University of Jammu, Jammu, India
9 Department of Nuclear Physics and Biophysics, Safárik University, Kosice, Slovakia
10 Institute of Experimental Physics, Slovak Academy of Sciences, Kosice, Slovakia
11 Department of Physics, Shanxi Normal University, Linfen, Shanxi, People's Republic of China
12 Department of Physics, University of Lund, Lund, Sweden
13 F.B. Physik, Philipps University, Marburg, Germany
14 Lab. of Cosmic Physics, P.N. Lebedev Institute of Physics, Moscow, Russia
15 Department of Physics, University of Washington, Seattle, WA, USA
16 Department of Physics, Kon-Kuk University, Seoul, Korea
17 V.G. Khlopin Radium Institute, St. Petersburg, Russia
18 School of Physics, University of Sydney, Sydney, Australia
19 Lab. of Relativistic Nuclear Physics, Institute of Nuclear Physics, Tashkent, Uzbekistan
21 Lab. of High Energies, Physical-Technical Institute Tashkent, Uzbekistan
22 Institute of Particle Physics, Hua-Zhong Normal University, Wuhan, Hubei, People's Republic of China
23 Yerevan Physics Institute, Yerevan, Armenia
EMU01-collaboration

Received: 14 July 1997 / Revised version: 20 January 1998 Communicated by V. Metag

Abstract
Using emulsion detectors a transverse-momentum analysis of projectile fragments has been performed in Au induced nuclear interactions at 11.6 A GeV/c. Evidence for collective flow of the projectile fragments has been obtained. Angular distributions of the principal vectors of projectile and target fragments have shown strong azimuthal correlation.

PACS
25.70.Mn Projectile and target fragmentation


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