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Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions

Results on the study of localized fluctuations in the multiplicity of charged particles and photons produce 158A GeV/c Pb+Pb collisions are presented for four different centrality classes. The charged versus neutral particle multiplicity correlations in common phase space regions of varying azimutha...

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Detalles Bibliográficos
Autores principales: Aggarwal, M.M., Ahammed, Z., Angelis, A.L.S., Antonenko, V., Arefev, V., Astakhov, V., Avdeitchikov, V., Awes, T.C., Baba, P.V.K.S., Badyal, S.K., Bathe, S., Batiounia, B., Bernier, T., Bhalla, K.B., Bhatia, V.S., Blume, C., Bucher, D., Busching, H., Carlen, L., Chattopadhyay, S., Decowski, M.P., Delagrange, H., Donni, P., Dutta Majumdar, M.R., El Chenawi, K., Dubey, A.K., Enosawa, K., Fokin, S., Frolov, V., Ganti, M.S., Garpman, S., Gavrishchuk, O., Geurts, F.J.M., Ghosh, T.K., Glasow, R., Guskov, B., Gustafsson, H.A., Gutbrod, H.H., Hrivnacova, I., Ippolitov, M., Kalechofsky, H., Karadjev, K., Karpio, K., Kolb, B.W., Kosarev, I., Koutcheryaev, I., Kugler, A., Kulinich, P., Kurata, M., Lebedev, A., Lohner, H., Luquin, L., Mahapatra, D.P., Manko, V., Martin, M., Martinez, G., Maximov, A., Miake, Y., Mishra, G.C., Mohanty, B., Mora, M.J., Morrison, D., Mukhanova, T., Mukhopadhyay, D.S., Naef, H., Nandi, B.K., Nayak, S.K., Nayak, T.K., Nianine, A., Nikitine, V., Nikolaev, S., Nilsson, P., Nishimura, S., Nomokonov, P., Nystrand, J., Oskarsson, A., Otterlund, I., Peitzmann, T., Peressounko, D., Petracek, V., Pinganaud, W., Plasil, F., Purschke, M.L., Rak, J., Raniwala, R., Raniwala, S., Rao, N.K., Retiere, F., Reygers, K., Roland, G., Rosselet, L., Roufanov, I., Roy, C., Rubio, J.M., 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., Sood, G., Sorensen, S.P., Stankus, P., Stefanek, G., Steinberg, P., Stenlund, E., Sumbera, M., Svensson, T., Tsvetkov, A., Tykarski, L., van de Pijll, E.C., van Eijndhoven, N., van Nieuwenhuizen, G.J., Vinogradov, A., Viyogi, Y.P., Vodopianov, A.S., Voros, S., Wyslouch, B., Young, G.R.
Lenguaje:eng
Publicado: 2002
Materias:
Acceso en línea:https://dx.doi.org/10.1103/PhysRevC.67.044901
http://cds.cern.ch/record/564479
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author Aggarwal, M.M.
Ahammed, Z.
Angelis, A.L.S.
Antonenko, V.
Arefev, V.
Astakhov, V.
Avdeitchikov, V.
Awes, T.C.
Baba, P.V.K.S.
Badyal, S.K.
Bathe, S.
Batiounia, B.
Bernier, T.
Bhalla, K.B.
Bhatia, V.S.
Blume, C.
Bucher, D.
Busching, H.
Carlen, L.
Chattopadhyay, S.
Decowski, M.P.
Delagrange, H.
Donni, P.
Dutta Majumdar, M.R.
El Chenawi, K.
Dubey, A.K.
Enosawa, K.
Fokin, S.
Frolov, V.
Ganti, M.S.
Garpman, S.
Gavrishchuk, O.
Geurts, F.J.M.
Ghosh, T.K.
Glasow, R.
Guskov, B.
Gustafsson, H.A.
Gutbrod, H.H.
Hrivnacova, I.
Ippolitov, M.
Kalechofsky, H.
Karadjev, K.
Karpio, K.
Kolb, B.W.
Kosarev, I.
Koutcheryaev, I.
Kugler, A.
Kulinich, P.
Kurata, M.
Lebedev, A.
Lohner, H.
Luquin, L.
Mahapatra, D.P.
Manko, V.
Martin, M.
Martinez, G.
Maximov, A.
Miake, Y.
Mishra, G.C.
Mohanty, B.
Mora, M.J.
Morrison, D.
Mukhanova, T.
Mukhopadhyay, D.S.
Naef, H.
Nandi, B.K.
Nayak, S.K.
Nayak, T.K.
Nianine, A.
Nikitine, V.
Nikolaev, S.
Nilsson, P.
Nishimura, S.
Nomokonov, P.
Nystrand, J.
Oskarsson, A.
Otterlund, I.
Peitzmann, T.
Peressounko, D.
Petracek, V.
Pinganaud, W.
Plasil, F.
Purschke, M.L.
Rak, J.
Raniwala, R.
Raniwala, S.
Rao, N.K.
Retiere, F.
Reygers, K.
Roland, G.
Rosselet, L.
Roufanov, I.
Roy, C.
Rubio, J.M.
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.
Sood, G.
Sorensen, S.P.
Stankus, P.
Stefanek, G.
Steinberg, P.
Stenlund, E.
Sumbera, M.
Svensson, T.
Tsvetkov, A.
Tykarski, L.
van de Pijll, E.C.
van Eijndhoven, N.
van Nieuwenhuizen, G.J.
Vinogradov, A.
Viyogi, Y.P.
Vodopianov, A.S.
Voros, S.
Wyslouch, B.
Young, G.R.
author_facet Aggarwal, M.M.
Ahammed, Z.
Angelis, A.L.S.
Antonenko, V.
Arefev, V.
Astakhov, V.
Avdeitchikov, V.
Awes, T.C.
Baba, P.V.K.S.
Badyal, S.K.
Bathe, S.
Batiounia, B.
Bernier, T.
Bhalla, K.B.
Bhatia, V.S.
Blume, C.
Bucher, D.
Busching, H.
Carlen, L.
Chattopadhyay, S.
Decowski, M.P.
Delagrange, H.
Donni, P.
Dutta Majumdar, M.R.
El Chenawi, K.
Dubey, A.K.
Enosawa, K.
Fokin, S.
Frolov, V.
Ganti, M.S.
Garpman, S.
Gavrishchuk, O.
Geurts, F.J.M.
Ghosh, T.K.
Glasow, R.
Guskov, B.
Gustafsson, H.A.
Gutbrod, H.H.
Hrivnacova, I.
Ippolitov, M.
Kalechofsky, H.
Karadjev, K.
Karpio, K.
Kolb, B.W.
Kosarev, I.
Koutcheryaev, I.
Kugler, A.
Kulinich, P.
Kurata, M.
Lebedev, A.
Lohner, H.
Luquin, L.
Mahapatra, D.P.
Manko, V.
Martin, M.
Martinez, G.
Maximov, A.
Miake, Y.
Mishra, G.C.
Mohanty, B.
Mora, M.J.
Morrison, D.
Mukhanova, T.
Mukhopadhyay, D.S.
Naef, H.
Nandi, B.K.
Nayak, S.K.
Nayak, T.K.
Nianine, A.
Nikitine, V.
Nikolaev, S.
Nilsson, P.
Nishimura, S.
Nomokonov, P.
Nystrand, J.
Oskarsson, A.
Otterlund, I.
Peitzmann, T.
Peressounko, D.
Petracek, V.
Pinganaud, W.
Plasil, F.
Purschke, M.L.
Rak, J.
Raniwala, R.
Raniwala, S.
Rao, N.K.
Retiere, F.
Reygers, K.
Roland, G.
Rosselet, L.
Roufanov, I.
Roy, C.
Rubio, J.M.
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.
Sood, G.
Sorensen, S.P.
Stankus, P.
Stefanek, G.
Steinberg, P.
Stenlund, E.
Sumbera, M.
Svensson, T.
Tsvetkov, A.
Tykarski, L.
van de Pijll, E.C.
van Eijndhoven, N.
van Nieuwenhuizen, G.J.
Vinogradov, A.
Viyogi, Y.P.
Vodopianov, A.S.
Voros, S.
Wyslouch, B.
Young, G.R.
author_sort Aggarwal, M.M.
collection CERN
description Results on the study of localized fluctuations in the multiplicity of charged particles and photons produce 158A GeV/c Pb+Pb collisions are presented for four different centrality classes. The charged versus neutral particle multiplicity correlations in common phase space regions of varying azimuthal size are analyzed by two different methods. Various types of mixed events are constructed to probe fluctuations arising from different sources. The measured results are compared to those from simulations and from mixed events. The comparison indicates the presence of non-statistical fluctuations in both the charged particle and photon multiplicities in limited azimuthal regions which decrease with decrease in centrality. However, no correlated charged-neutral fluctuations, a possible signature of formation of disoriented chiral condensates, are observed. An upper limit on the production of disoriented chiral condensates has been set.
id cern-564479
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2002
record_format invenio
spelling cern-5644792019-09-30T06:29:59Zdoi:10.1103/PhysRevC.67.044901http://cds.cern.ch/record/564479engAggarwal, M.M.Ahammed, Z.Angelis, A.L.S.Antonenko, V.Arefev, V.Astakhov, V.Avdeitchikov, V.Awes, T.C.Baba, P.V.K.S.Badyal, S.K.Bathe, S.Batiounia, B.Bernier, T.Bhalla, K.B.Bhatia, V.S.Blume, C.Bucher, D.Busching, H.Carlen, L.Chattopadhyay, S.Decowski, M.P.Delagrange, H.Donni, P.Dutta Majumdar, M.R.El Chenawi, K.Dubey, A.K.Enosawa, K.Fokin, S.Frolov, V.Ganti, M.S.Garpman, S.Gavrishchuk, O.Geurts, F.J.M.Ghosh, T.K.Glasow, R.Guskov, B.Gustafsson, H.A.Gutbrod, H.H.Hrivnacova, I.Ippolitov, M.Kalechofsky, H.Karadjev, K.Karpio, K.Kolb, B.W.Kosarev, I.Koutcheryaev, I.Kugler, A.Kulinich, P.Kurata, M.Lebedev, A.Lohner, H.Luquin, L.Mahapatra, D.P.Manko, V.Martin, M.Martinez, G.Maximov, A.Miake, Y.Mishra, G.C.Mohanty, B.Mora, M.J.Morrison, D.Mukhanova, T.Mukhopadhyay, D.S.Naef, H.Nandi, B.K.Nayak, S.K.Nayak, T.K.Nianine, A.Nikitine, V.Nikolaev, S.Nilsson, P.Nishimura, S.Nomokonov, P.Nystrand, J.Oskarsson, A.Otterlund, I.Peitzmann, T.Peressounko, D.Petracek, V.Pinganaud, W.Plasil, F.Purschke, M.L.Rak, J.Raniwala, R.Raniwala, S.Rao, N.K.Retiere, F.Reygers, K.Roland, G.Rosselet, L.Roufanov, I.Roy, C.Rubio, J.M.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.Sood, G.Sorensen, S.P.Stankus, P.Stefanek, G.Steinberg, P.Stenlund, E.Sumbera, M.Svensson, T.Tsvetkov, A.Tykarski, L.van de Pijll, E.C.van Eijndhoven, N.van Nieuwenhuizen, G.J.Vinogradov, A.Viyogi, Y.P.Vodopianov, A.S.Voros, S.Wyslouch, B.Young, G.R.Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisionsNuclear PhysicsResults on the study of localized fluctuations in the multiplicity of charged particles and photons produce 158A GeV/c Pb+Pb collisions are presented for four different centrality classes. The charged versus neutral particle multiplicity correlations in common phase space regions of varying azimuthal size are analyzed by two different methods. Various types of mixed events are constructed to probe fluctuations arising from different sources. The measured results are compared to those from simulations and from mixed events. The comparison indicates the presence of non-statistical fluctuations in both the charged particle and photon multiplicities in limited azimuthal regions which decrease with decrease in centrality. However, no correlated charged-neutral fluctuations, a possible signature of formation of disoriented chiral condensates, are observed. An upper limit on the production of disoriented chiral condensates has been set.Results on the study of localized fluctuations in the multiplicity of charged particles and photons produce 158A GeV/c Pb+Pb collisions are presented for four different centrality classes. The charged versus neutral particle multiplicity correlations in common phase space regions of varying azimuthal size are analyzed by two different methods. Various types of mixed events are constructed to probe fluctuations arising from different sources. The measured results are compared to those from simulations and from mixed events. The comparison indicates the presence of non-statistical fluctuations in both the charged particle and photon multiplicities in limited azimuthal regions which decrease with decrease in centrality. However, no correlated charged-neutral fluctuations, a possible signature of formation of disoriented chiral condensates, are observed. An upper limit on the production of disoriented chiral condensates has been set.Results on the study of localized fluctuations in the multiplicity of charged particles and photons produce 158A GeV/c Pb+Pb collisions are presented for four different centrality classes. The charged versus neutral particle multiplicity correlations in common phase space regions of varying azimuthal size are analyzed by two different methods. Various types of mixed events are constructed to probe fluctuations arising from different sources. The measured results are compared to those from simulations and from mixed events. The comparison indicates the presence of non-statistical fluctuations in both the charged particle and photon multiplicities in limited azimuthal regions which decrease with decrease in centrality. However, no correlated charged-neutral fluctuations, a possible signature of formation of disoriented chiral condensates, are observed. An upper limit on the production of disoriented chiral condensates has been set.nucl-ex/0206017oai:cds.cern.ch:5644792002-06-25
spellingShingle Nuclear Physics
Aggarwal, M.M.
Ahammed, Z.
Angelis, A.L.S.
Antonenko, V.
Arefev, V.
Astakhov, V.
Avdeitchikov, V.
Awes, T.C.
Baba, P.V.K.S.
Badyal, S.K.
Bathe, S.
Batiounia, B.
Bernier, T.
Bhalla, K.B.
Bhatia, V.S.
Blume, C.
Bucher, D.
Busching, H.
Carlen, L.
Chattopadhyay, S.
Decowski, M.P.
Delagrange, H.
Donni, P.
Dutta Majumdar, M.R.
El Chenawi, K.
Dubey, A.K.
Enosawa, K.
Fokin, S.
Frolov, V.
Ganti, M.S.
Garpman, S.
Gavrishchuk, O.
Geurts, F.J.M.
Ghosh, T.K.
Glasow, R.
Guskov, B.
Gustafsson, H.A.
Gutbrod, H.H.
Hrivnacova, I.
Ippolitov, M.
Kalechofsky, H.
Karadjev, K.
Karpio, K.
Kolb, B.W.
Kosarev, I.
Koutcheryaev, I.
Kugler, A.
Kulinich, P.
Kurata, M.
Lebedev, A.
Lohner, H.
Luquin, L.
Mahapatra, D.P.
Manko, V.
Martin, M.
Martinez, G.
Maximov, A.
Miake, Y.
Mishra, G.C.
Mohanty, B.
Mora, M.J.
Morrison, D.
Mukhanova, T.
Mukhopadhyay, D.S.
Naef, H.
Nandi, B.K.
Nayak, S.K.
Nayak, T.K.
Nianine, A.
Nikitine, V.
Nikolaev, S.
Nilsson, P.
Nishimura, S.
Nomokonov, P.
Nystrand, J.
Oskarsson, A.
Otterlund, I.
Peitzmann, T.
Peressounko, D.
Petracek, V.
Pinganaud, W.
Plasil, F.
Purschke, M.L.
Rak, J.
Raniwala, R.
Raniwala, S.
Rao, N.K.
Retiere, F.
Reygers, K.
Roland, G.
Rosselet, L.
Roufanov, I.
Roy, C.
Rubio, J.M.
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.
Sood, G.
Sorensen, S.P.
Stankus, P.
Stefanek, G.
Steinberg, P.
Stenlund, E.
Sumbera, M.
Svensson, T.
Tsvetkov, A.
Tykarski, L.
van de Pijll, E.C.
van Eijndhoven, N.
van Nieuwenhuizen, G.J.
Vinogradov, A.
Viyogi, Y.P.
Vodopianov, A.S.
Voros, S.
Wyslouch, B.
Young, G.R.
Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title_full Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title_fullStr Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title_full_unstemmed Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title_short Centrality dependence of charged-neutral particle fluctuations in 158A GeV Pb+Pb collisions
title_sort centrality dependence of charged-neutral particle fluctuations in 158a gev pb+pb collisions
topic Nuclear Physics
url https://dx.doi.org/10.1103/PhysRevC.67.044901
http://cds.cern.ch/record/564479
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AT otterlundi centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT peitzmannt centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT peressounkod centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT petracekv centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT pinganaudw centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT plasilf centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT purschkeml centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT rakj centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT raniwalar centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT raniwalas centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT raonk centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT retieref centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT reygersk centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT rolandg centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT rosseletl centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT roufanovi centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT royc centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT rubiojm centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT sambyalss centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT santor centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT satos centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT schlagheckh centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT schmidthr centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT schutzy centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT shabratovag centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT shahth centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT sibiriaki centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT siemiarczukt centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT silvermyrd centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT sinhabc centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT slavinen centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT soderstromk centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT soodg centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT sorensensp centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT stankusp centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT stefanekg centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT steinbergp centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT stenlunde centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT sumberam centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT svenssont centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT tsvetkova centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT tykarskil centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT vandepijllec centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT vaneijndhovenn centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT vannieuwenhuizengj centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT vinogradova centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT viyogiyp centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT vodopianovas centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT voross centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT wyslouchb centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions
AT younggr centralitydependenceofchargedneutralparticlefluctuationsin158agevpbpbcollisions