Cargando…
Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV
Transverse energy, charged particle, and photon pseudorapidity distributions have been studied as a function of the number of participants (N_{part}) and the number of binary nucleon-nucleon collisions (N_{coll}) in 158 A GeV Pb+Pb collisions over a wide impact parameter range. A scaling of the tran...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2001
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1007/s100520100578 http://cds.cern.ch/record/450682 |
| _version_ | 1780896137904914432 |
|---|---|
| author | Aggarwal, M.M. Agnihotri, A. Ahammed, Z. Angelis, A.L.S. Antonenko, V. Arefiev, V. Astakhov, V. Avdeitchikov, V. Awes, T.C. Baba, P.V.K.S. Badyal, S.K. Baldine, A. Barabach, L. Barlag, C. Bathe, S. Batiounia, B. Bernier, T. Bhalla, K.B. Bhatia, V.S. Blume, C. Bohne, E.M. Borocz, Z.K. Bucher, D. Buijs, A. Busching, H. Carlen, L. Chalyshev, V. Chattopadhyay, S. Cherbatchev, R. Chujo, T. Claussen, A. Das, A.C. Decowski, M.P. Delagrange, H. Djordjadze, V. Donni, P. Doubovik, I. Dutt, S. Dutta Majumdar, M.R. El Chenawi, K. Eliseev, S. Enosawa, K. Foka, P. Fokin, S. Frolov, V. Ganti, M.S. Garpman, S. Gavrishchuk, O. Geurts, F.J.M. Ghosh, T.K. Glasow, R. Gupta, S.K. Guskov, B. Gustafsson, H.A. Gutbrod, H.H. Higuchi, R. Hrivnacova, I. Ippolitov, M. Kalechofsky, H. Kamermans, R. Kampert, K.H. Karadjev, K. Karpio, K. Kato, S. Kees, S. Kim, H. Kolb, B.W. Kosarev, I. Koutcheryaev, I. Krumpel, T. Kugler, A. Kulinich, P. Kurata, M. Kurita, K. Kuzmin, N. Langbein, I. Lebedev, A. Lee, Y.Y. Lohner, H. Luquin, L. Mahapatra, D.P. Manko, V. Martin, M. Martinez, G. Maximov, A. Mehdiyev, Rashid R. Mgebrichvili, G. Miake, Y. Mikhalev, D. Mir, Md.F. Mishra, G.C. Miyamoto, Y. Mohanty, B. Mora, M.J. Morrison, Douglas R.O. Mukhopadhyay, D.S. Myalkovski, V. Naef, H. Nandi, B.K. Nayak, S.K. Nayak, T.K. Neumaier, S. Nianine, A. Nikitine, V. Nikolaev, S. Nilsson, P. Nishimura, S. Nomokonov, P. Nystrand, J. Obenshain, F.E. Oskarsson, A. Otterlund, I. Pachr, M. Parfenov, A. Pavliouk, S. Peitzmann, T. Petracek, V. Plasil, F. Pinganaud, W. Purschke, M.L. Raeven, B. Rak, J. Raniwala, R. Raniwala, S. Ramamurthy, V.S. Rao, N.K. Retiere, F. Reygers, K. Roland, G. Rosselet, L. Roufanov, I. Roy, C. Rubio, J.M. Sako, H. Sambyal, S.S. Santo, R. Sato, S. Schlagheck, H. Schmidt, H.R. Schutz, Y. Shabratova, G. Shah, T.H. Sibiriak, I. Siemiarczuk, T. Silvermyr, D. Sinha, B.C. Slavine, N. Soderstrom, K. Solomey, N. Sorensen, S.P. Stankus, P. Stefanek, G. Steinberg, P. Stenlund, E. Stuken, D. Sumbera, M. Svensson, T. Trivedi, M.D. Tsvetkov, A. Tykarski, L. Urbahn, J. van de Pijll, E.C. van Eijndhoven, N. van Nieuwenhuizen, G.J. Vinogradov, A. Viyogi, Y.P. Vodopianov, A.S. Voros, S. Wyslouch, B. Yagi, K. Yokota, Y. Young, G.R. |
| author_facet | Aggarwal, M.M. Agnihotri, A. Ahammed, Z. Angelis, A.L.S. Antonenko, V. Arefiev, V. Astakhov, V. Avdeitchikov, V. Awes, T.C. Baba, P.V.K.S. Badyal, S.K. Baldine, A. Barabach, L. Barlag, C. Bathe, S. Batiounia, B. Bernier, T. Bhalla, K.B. Bhatia, V.S. Blume, C. Bohne, E.M. Borocz, Z.K. Bucher, D. Buijs, A. Busching, H. Carlen, L. Chalyshev, V. Chattopadhyay, S. Cherbatchev, R. Chujo, T. Claussen, A. Das, A.C. Decowski, M.P. Delagrange, H. Djordjadze, V. Donni, P. Doubovik, I. Dutt, S. Dutta Majumdar, M.R. El Chenawi, K. Eliseev, S. Enosawa, K. Foka, P. Fokin, S. Frolov, V. Ganti, M.S. Garpman, S. Gavrishchuk, O. Geurts, F.J.M. Ghosh, T.K. Glasow, R. Gupta, S.K. Guskov, B. Gustafsson, H.A. Gutbrod, H.H. Higuchi, R. Hrivnacova, I. Ippolitov, M. Kalechofsky, H. Kamermans, R. Kampert, K.H. Karadjev, K. Karpio, K. Kato, S. Kees, S. Kim, H. Kolb, B.W. Kosarev, I. Koutcheryaev, I. Krumpel, T. Kugler, A. Kulinich, P. Kurata, M. Kurita, K. Kuzmin, N. Langbein, I. Lebedev, A. Lee, Y.Y. Lohner, H. Luquin, L. Mahapatra, D.P. Manko, V. Martin, M. Martinez, G. Maximov, A. Mehdiyev, Rashid R. Mgebrichvili, G. Miake, Y. Mikhalev, D. Mir, Md.F. Mishra, G.C. Miyamoto, Y. Mohanty, B. Mora, M.J. Morrison, Douglas R.O. Mukhopadhyay, D.S. Myalkovski, V. Naef, H. Nandi, B.K. Nayak, S.K. Nayak, T.K. Neumaier, S. Nianine, A. Nikitine, V. Nikolaev, S. Nilsson, P. Nishimura, S. Nomokonov, P. Nystrand, J. Obenshain, F.E. Oskarsson, A. Otterlund, I. Pachr, M. Parfenov, A. Pavliouk, S. Peitzmann, T. Petracek, V. Plasil, F. Pinganaud, W. Purschke, M.L. Raeven, B. Rak, J. Raniwala, R. Raniwala, S. Ramamurthy, V.S. Rao, N.K. Retiere, F. Reygers, K. Roland, G. Rosselet, L. Roufanov, I. Roy, C. Rubio, J.M. Sako, H. Sambyal, S.S. Santo, R. Sato, S. Schlagheck, H. Schmidt, H.R. Schutz, Y. Shabratova, G. Shah, T.H. Sibiriak, I. Siemiarczuk, T. Silvermyr, D. Sinha, B.C. Slavine, N. Soderstrom, K. Solomey, N. Sorensen, S.P. Stankus, P. Stefanek, G. Steinberg, P. Stenlund, E. Stuken, D. Sumbera, M. Svensson, T. Trivedi, M.D. Tsvetkov, A. Tykarski, L. Urbahn, J. van de Pijll, E.C. van Eijndhoven, N. van Nieuwenhuizen, G.J. Vinogradov, A. Viyogi, Y.P. Vodopianov, A.S. Voros, S. Wyslouch, B. Yagi, K. Yokota, Y. Young, G.R. |
| author_sort | Aggarwal, M.M. |
| collection | CERN |
| description | Transverse energy, charged particle, and photon pseudorapidity distributions have been studied as a function of the number of participants (N_{part}) and the number of binary nucleon-nucleon collisions (N_{coll}) in 158 A GeV Pb+Pb collisions over a wide impact parameter range. A scaling of the transverse energy and charged particle pseudorapidity density at midrapidity as N_{part}^{1.08} and N_{coll}^{0.83} is observed. This faster than linear scaling with N_{part} indicates a violation of the naive Wounded Nucleon Model. |
| id | cern-450682 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2001 |
| record_format | invenio |
| spelling | cern-4506822022-02-05T03:26:48Zdoi:10.1007/s100520100578http://cds.cern.ch/record/450682engAggarwal, M.M.Agnihotri, A.Ahammed, Z.Angelis, A.L.S.Antonenko, V.Arefiev, V.Astakhov, V.Avdeitchikov, V.Awes, T.C.Baba, P.V.K.S.Badyal, S.K.Baldine, A.Barabach, L.Barlag, C.Bathe, S.Batiounia, B.Bernier, T.Bhalla, K.B.Bhatia, V.S.Blume, C.Bohne, E.M.Borocz, Z.K.Bucher, D.Buijs, A.Busching, H.Carlen, L.Chalyshev, V.Chattopadhyay, S.Cherbatchev, R.Chujo, T.Claussen, A.Das, A.C.Decowski, M.P.Delagrange, H.Djordjadze, V.Donni, P.Doubovik, I.Dutt, S.Dutta Majumdar, M.R.El Chenawi, K.Eliseev, S.Enosawa, K.Foka, P.Fokin, S.Frolov, V.Ganti, M.S.Garpman, S.Gavrishchuk, O.Geurts, F.J.M.Ghosh, T.K.Glasow, R.Gupta, S.K.Guskov, B.Gustafsson, H.A.Gutbrod, H.H.Higuchi, R.Hrivnacova, I.Ippolitov, M.Kalechofsky, H.Kamermans, R.Kampert, K.H.Karadjev, K.Karpio, K.Kato, S.Kees, S.Kim, H.Kolb, B.W.Kosarev, I.Koutcheryaev, I.Krumpel, T.Kugler, A.Kulinich, P.Kurata, M.Kurita, K.Kuzmin, N.Langbein, I.Lebedev, A.Lee, Y.Y.Lohner, H.Luquin, L.Mahapatra, D.P.Manko, V.Martin, M.Martinez, G.Maximov, A.Mehdiyev, Rashid R.Mgebrichvili, G.Miake, Y.Mikhalev, D.Mir, Md.F.Mishra, G.C.Miyamoto, Y.Mohanty, B.Mora, M.J.Morrison, Douglas R.O.Mukhopadhyay, D.S.Myalkovski, V.Naef, H.Nandi, B.K.Nayak, S.K.Nayak, T.K.Neumaier, S.Nianine, A.Nikitine, V.Nikolaev, S.Nilsson, P.Nishimura, S.Nomokonov, P.Nystrand, J.Obenshain, F.E.Oskarsson, A.Otterlund, I.Pachr, M.Parfenov, A.Pavliouk, S.Peitzmann, T.Petracek, V.Plasil, F.Pinganaud, W.Purschke, M.L.Raeven, B.Rak, J.Raniwala, R.Raniwala, S.Ramamurthy, V.S.Rao, N.K.Retiere, F.Reygers, K.Roland, G.Rosselet, L.Roufanov, I.Roy, C.Rubio, J.M.Sako, H.Sambyal, S.S.Santo, R.Sato, S.Schlagheck, H.Schmidt, H.R.Schutz, Y.Shabratova, G.Shah, T.H.Sibiriak, I.Siemiarczuk, T.Silvermyr, D.Sinha, B.C.Slavine, N.Soderstrom, K.Solomey, N.Sorensen, S.P.Stankus, P.Stefanek, G.Steinberg, P.Stenlund, E.Stuken, D.Sumbera, M.Svensson, T.Trivedi, M.D.Tsvetkov, A.Tykarski, L.Urbahn, J.van de Pijll, E.C.van Eijndhoven, N.van Nieuwenhuizen, G.J.Vinogradov, A.Viyogi, Y.P.Vodopianov, A.S.Voros, S.Wyslouch, B.Yagi, K.Yokota, Y.Young, G.R.Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeVNuclear Physics - ExperimentTransverse energy, charged particle, and photon pseudorapidity distributions have been studied as a function of the number of participants (N_{part}) and the number of binary nucleon-nucleon collisions (N_{coll}) in 158 A GeV Pb+Pb collisions over a wide impact parameter range. A scaling of the transverse energy and charged particle pseudorapidity density at midrapidity as N_{part}^{1.08} and N_{coll}^{0.83} is observed. This faster than linear scaling with N_{part} indicates a violation of the naive Wounded Nucleon Model.Transverse energy, charged particle pseudorapidity distributions and photon transverse momentum spectra have been studied as a function of the number of participants (N_{part}) and the number of binary nucleon-nucleon collisions (N_{coll}) in 158 A GeV Pb+Pb collisions over a wide impact parameter range. A scaling of the transverse energy pseudorapidity density at midrapidity as N_{part}^{1.08 \pm 0.06} and N_{coll}^{0.83 \pm 0.05} is observed. For the charged particle pseudorapidity density at midrapidity we find a scaling as N_{part}^{1.07 \pm 0.04} and N_{coll}^{0.82 \pm 0.03}. This faster than linear scaling with N_{part} indicates a violation of the naive Wounded Nucleon Model.nucl-ex/0008004oai:cds.cern.ch:4506822001 |
| spellingShingle | Nuclear Physics - Experiment Aggarwal, M.M. Agnihotri, A. Ahammed, Z. Angelis, A.L.S. Antonenko, V. Arefiev, V. Astakhov, V. Avdeitchikov, V. Awes, T.C. Baba, P.V.K.S. Badyal, S.K. Baldine, A. Barabach, L. Barlag, C. Bathe, S. Batiounia, B. Bernier, T. Bhalla, K.B. Bhatia, V.S. Blume, C. Bohne, E.M. Borocz, Z.K. Bucher, D. Buijs, A. Busching, H. Carlen, L. Chalyshev, V. Chattopadhyay, S. Cherbatchev, R. Chujo, T. Claussen, A. Das, A.C. Decowski, M.P. Delagrange, H. Djordjadze, V. Donni, P. Doubovik, I. Dutt, S. Dutta Majumdar, M.R. El Chenawi, K. Eliseev, S. Enosawa, K. Foka, P. Fokin, S. Frolov, V. Ganti, M.S. Garpman, S. Gavrishchuk, O. Geurts, F.J.M. Ghosh, T.K. Glasow, R. Gupta, S.K. Guskov, B. Gustafsson, H.A. Gutbrod, H.H. Higuchi, R. Hrivnacova, I. Ippolitov, M. Kalechofsky, H. Kamermans, R. Kampert, K.H. Karadjev, K. Karpio, K. Kato, S. Kees, S. Kim, H. Kolb, B.W. Kosarev, I. Koutcheryaev, I. Krumpel, T. Kugler, A. Kulinich, P. Kurata, M. Kurita, K. Kuzmin, N. Langbein, I. Lebedev, A. Lee, Y.Y. Lohner, H. Luquin, L. Mahapatra, D.P. Manko, V. Martin, M. Martinez, G. Maximov, A. Mehdiyev, Rashid R. Mgebrichvili, G. Miake, Y. Mikhalev, D. Mir, Md.F. Mishra, G.C. Miyamoto, Y. Mohanty, B. Mora, M.J. Morrison, Douglas R.O. Mukhopadhyay, D.S. Myalkovski, V. Naef, H. Nandi, B.K. Nayak, S.K. Nayak, T.K. Neumaier, S. Nianine, A. Nikitine, V. Nikolaev, S. Nilsson, P. Nishimura, S. Nomokonov, P. Nystrand, J. Obenshain, F.E. Oskarsson, A. Otterlund, I. Pachr, M. Parfenov, A. Pavliouk, S. Peitzmann, T. Petracek, V. Plasil, F. Pinganaud, W. Purschke, M.L. Raeven, B. Rak, J. Raniwala, R. Raniwala, S. Ramamurthy, V.S. Rao, N.K. Retiere, F. Reygers, K. Roland, G. Rosselet, L. Roufanov, I. Roy, C. Rubio, J.M. Sako, H. Sambyal, S.S. Santo, R. Sato, S. Schlagheck, H. Schmidt, H.R. Schutz, Y. Shabratova, G. Shah, T.H. Sibiriak, I. Siemiarczuk, T. Silvermyr, D. Sinha, B.C. Slavine, N. Soderstrom, K. Solomey, N. Sorensen, S.P. Stankus, P. Stefanek, G. Steinberg, P. Stenlund, E. Stuken, D. Sumbera, M. Svensson, T. Trivedi, M.D. Tsvetkov, A. Tykarski, L. Urbahn, J. van de Pijll, E.C. van Eijndhoven, N. van Nieuwenhuizen, G.J. Vinogradov, A. Viyogi, Y.P. Vodopianov, A.S. Voros, S. Wyslouch, B. Yagi, K. Yokota, Y. Young, G.R. Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title | Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title_full | Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title_fullStr | Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title_full_unstemmed | Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title_short | Scaling of Particle and Transverse Energy Production in 208Pb+208Pb collisions at 158 A GeV |
| title_sort | scaling of particle and transverse energy production in 208pb+208pb collisions at 158 a gev |
| topic | Nuclear Physics - Experiment |
| url | https://dx.doi.org/10.1007/s100520100578 http://cds.cern.ch/record/450682 |
| work_keys_str_mv | AT aggarwalmm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT agnihotria scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT ahammedz scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT angelisals scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT antonenkov scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT arefievv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT astakhovv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT avdeitchikovv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT awestc scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT babapvks scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT badyalsk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT baldinea scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT barabachl scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT barlagc scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT bathes scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT batiouniab scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT berniert scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT bhallakb scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT bhatiavs scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT blumec scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT bohneem scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT boroczzk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT bucherd scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT buijsa scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT buschingh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT carlenl scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT chalyshevv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT chattopadhyays scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT cherbatchevr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT chujot scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT claussena scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT dasac scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT decowskimp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT delagrangeh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT djordjadzev scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT donnip scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT douboviki scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT dutts scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT duttamajumdarmr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT elchenawik scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT eliseevs scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT enosawak scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT fokap scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT fokins scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT frolovv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT gantims scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT garpmans scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT gavrishchuko scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT geurtsfjm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT ghoshtk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT glasowr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT guptask scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT guskovb scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT gustafssonha scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT gutbrodhh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT higuchir scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT hrivnacovai scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT ippolitovm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kalechofskyh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kamermansr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kampertkh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT karadjevk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT karpiok scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT katos scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT keess scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kimh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kolbbw scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kosarevi scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT koutcheryaevi scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT krumpelt scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kuglera scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kulinichp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kuratam scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kuritak scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT kuzminn scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT langbeini scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT lebedeva scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT leeyy scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT lohnerh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT luquinl scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mahapatradp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mankov scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT martinm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT martinezg scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT maximova scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mehdiyevrashidr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mgebrichvilig scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT miakey scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mikhalevd scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mirmdf scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mishragc scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT miyamotoy scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mohantyb scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT moramj scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT morrisondouglasro scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT mukhopadhyayds scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT myalkovskiv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT naefh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nandibk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nayaksk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nayaktk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT neumaiers scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nianinea scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nikitinev scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nikolaevs scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nilssonp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nishimuras scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nomokonovp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT nystrandj scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT obenshainfe scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT oskarssona scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT otterlundi scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT pachrm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT parfenova scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT pavliouks scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT peitzmannt scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT petracekv scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT plasilf scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT pinganaudw scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT purschkeml scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT raevenb scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT rakj scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT raniwalar scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT raniwalas scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT ramamurthyvs scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT raonk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT retieref scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT reygersk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT rolandg scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT rosseletl scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT roufanovi scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT royc scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT rubiojm scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sakoh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sambyalss scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT santor scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT satos scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT schlagheckh scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT schmidthr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT schutzy scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT shabratovag scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT shahth scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sibiriaki scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT siemiarczukt scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT silvermyrd scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sinhabc scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT slavinen scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT soderstromk scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT solomeyn scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sorensensp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT stankusp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT stefanekg scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT steinbergp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT stenlunde scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT stukend scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT sumberam scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT svenssont scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT trivedimd scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT tsvetkova scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT tykarskil scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT urbahnj scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT vandepijllec scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT vaneijndhovenn scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT vannieuwenhuizengj scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT vinogradova scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT viyogiyp scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT vodopianovas scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT voross scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT wyslouchb scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT yagik scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT yokotay scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev AT younggr scalingofparticleandtransverseenergyproductionin208pb208pbcollisionsat158agev |