Two-particle correlations in 158 A GeV collisions

The only known way to obtain indirect experimental information on the space-time structure of the particle emitting source created in relativistic heavy-ion collisions is two-particle (Hanbury-Brown- Twiss (HBT)) correlations. In particular a strong correlation between the momenta of the particles a...

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Detalles Bibliográficos
Autores principales: Aggarwal, M M, Agnihotri, A, Ahammed, Z, Angelis, Aris L S, Antonenko, V G, Arefev, V, Astakhov, V A, Avdeichikov, V, Awes, T C, Baba, P V K S, Badyal, S K, Baldin, A, Barabash, L, Barlag, C, Bathe, S, Batyunya, B, Bernier, T, Bhalla, K B, Bhatia, V S, Blume, C, Bohne, E M, Böröcz, Z K, Bucher, D, Buijs, A, Büsching, H, Carlén, L, Chalyshev, V, Chattopadhyay, S, Cherbachev, R, Chujo, T, Claussen, A, Das, A C, Decowski, M P, Delagrange, H, Dzhordzhadze, V, Dönni, P, Dubovik, I, Dutt, S K, Dutta-Majumdar, M R, El-Chenawi, K F, Eliseev, S, Enosawa, K, Foka, P Y, Fokin, S L, Frolov, V, Ganti, M S, Garpman, S I A, Gavrishchuk, O P, Geurts, F J M, Ghosh, T K, Glasow, R, Sen-Gupta, S K, Guskov, B, Gustafsson, Hans Åke, Gutbrod, H H, Higuchi, R, Hrivnacova, I, Ippolitov, M S, Kalechofsky, H, Kamermans, R, Kampert, K H, Karadzhev, K, Karpio, K, Kato, S, Kees, S, Kim, H, Kolb, B W, Kosarev, I G, Kucheryaev, I, Krümpel, T, Kugler, A, Kulinich, P A, Kurata, M, Kurita, K, Kuzmin, N A, Langbein, I, Lebedev, A, Lee, Y Y, Löhner, H, Luquin, Lionel, Mahapatra, D P, Man'ko, V I, Martin, M, Martínez, G, Maksimov, A, Mehdiyev, R, Mgebrishvili, G, Miake, Y, Mikhalev, D, Mir, M F, Mishra, G C, Miyamoto, Y, Morrison, D, Mukhopadhyay, D S, Myalkovskii, V, Naef, H, Nandi, B K, Nayak, S K, Nayak, T K, Neumaier, S, Nyanin, A, Nikitin, V A, Nikolaev, S, Nilsson, P O, Nishimura, S, Nomokonov, V P, Nystrand, J, Obenshain, F E, Oskarsson, A, Otterlund, I, Pachr, M, Parfenov, A, Pavlyuk, S, Peitzmann, Thomas, Petracek, V, Plasil, F, Pinganaud, W, Purschke, M L, Räven, B, Rak, J, Raniwala, R, Raniwala, S, Ramamurthy, V S, Rao, N K, Retière, F, Reygers, K, Roland, G, Rosselet, L, Rufanov, I A, 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, Sibiryak, Yu, Siemiarczuk, T, Silvermyr, D, Sinha, B C, Slavin, N V, Söderström, K, Solomey, Nickolas, Sørensen, S P, Stankus, P, Stefanek, G, Steinberg, P, Stenlund, E, Stüken, D, Sumbera, M, Svensson, T, Trivedi, M D, Tsvetkov, A A, Tykarski, L, Urbahn, J, Van den Pijll, E C, van Eijndhoven, N, van Nieuwenhuizen, G J, Vinogradov, A, Viyogi, Y P, Vodopyanov, A S, Vörös, S, Wyslouch, B, Yagi, K, Yokota, Y, Young, G R
Lenguaje:eng
Publicado: 1999
Materias:
Nuclear Physics
Acceso en línea:https://dx.doi.org/10.1016/S0375-9474(99)85057-X
http://cds.cern.ch/record/431443
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author Aggarwal, M M
Agnihotri, A
Ahammed, Z
Angelis, Aris L S
Antonenko, V G
Arefev, V
Astakhov, V A
Avdeichikov, V
Awes, T C
Baba, P V K S
Badyal, S K
Baldin, A
Barabash, L
Barlag, C
Bathe, S
Batyunya, B
Bernier, T
Bhalla, K B
Bhatia, V S
Blume, C
Bohne, E M
Böröcz, Z K
Bucher, D
Buijs, A
Büsching, H
Carlén, L
Chalyshev, V
Chattopadhyay, S
Cherbachev, R
Chujo, T
Claussen, A
Das, A C
Decowski, M P
Delagrange, H
Dzhordzhadze, V
Dönni, P
Dubovik, I
Dutt, S K
Dutta-Majumdar, M R
El-Chenawi, K F
Eliseev, S
Enosawa, K
Foka, P Y
Fokin, S L
Frolov, V
Ganti, M S
Garpman, S I A
Gavrishchuk, O P
Geurts, F J M
Ghosh, T K
Glasow, R
Sen-Gupta, S K
Guskov, B
Gustafsson, Hans Åke
Gutbrod, H H
Higuchi, R
Hrivnacova, I
Ippolitov, M S
Kalechofsky, H
Kamermans, R
Kampert, K H
Karadzhev, K
Karpio, K
Kato, S
Kees, S
Kim, H
Kolb, B W
Kosarev, I G
Kucheryaev, I
Krümpel, T
Kugler, A
Kulinich, P A
Kurata, M
Kurita, K
Kuzmin, N A
Langbein, I
Lebedev, A
Lee, Y Y
Löhner, H
Luquin, Lionel
Mahapatra, D P
Man'ko, V I
Martin, M
Martínez, G
Maksimov, A
Mehdiyev, R
Mgebrishvili, G
Miake, Y
Mikhalev, D
Mir, M F
Mishra, G C
Miyamoto, Y
Morrison, D
Mukhopadhyay, D S
Myalkovskii, V
Naef, H
Nandi, B K
Nayak, S K
Nayak, T K
Neumaier, S
Nyanin, A
Nikitin, V A
Nikolaev, S
Nilsson, P O
Nishimura, S
Nomokonov, V P
Nystrand, J
Obenshain, F E
Oskarsson, A
Otterlund, I
Pachr, M
Parfenov, A
Pavlyuk, S
Peitzmann, Thomas
Petracek, V
Plasil, F
Pinganaud, W
Purschke, M L
Räven, B
Rak, J
Raniwala, R
Raniwala, S
Ramamurthy, V S
Rao, N K
Retière, F
Reygers, K
Roland, G
Rosselet, L
Rufanov, I A
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
Sibiryak, Yu
Siemiarczuk, T
Silvermyr, D
Sinha, B C
Slavin, N V
Söderström, K
Solomey, Nickolas
Sørensen, S P
Stankus, P
Stefanek, G
Steinberg, P
Stenlund, E
Stüken, D
Sumbera, M
Svensson, T
Trivedi, M D
Tsvetkov, A A
Tykarski, L
Urbahn, J
Van den Pijll, E C
van Eijndhoven, N
van Nieuwenhuizen, G J
Vinogradov, A
Viyogi, Y P
Vodopyanov, A S
Vörös, S
Wyslouch, B
Yagi, K
Yokota, Y
Young, G R
author_facet Aggarwal, M M
Agnihotri, A
Ahammed, Z
Angelis, Aris L S
Antonenko, V G
Arefev, V
Astakhov, V A
Avdeichikov, V
Awes, T C
Baba, P V K S
Badyal, S K
Baldin, A
Barabash, L
Barlag, C
Bathe, S
Batyunya, B
Bernier, T
Bhalla, K B
Bhatia, V S
Blume, C
Bohne, E M
Böröcz, Z K
Bucher, D
Buijs, A
Büsching, H
Carlén, L
Chalyshev, V
Chattopadhyay, S
Cherbachev, R
Chujo, T
Claussen, A
Das, A C
Decowski, M P
Delagrange, H
Dzhordzhadze, V
Dönni, P
Dubovik, I
Dutt, S K
Dutta-Majumdar, M R
El-Chenawi, K F
Eliseev, S
Enosawa, K
Foka, P Y
Fokin, S L
Frolov, V
Ganti, M S
Garpman, S I A
Gavrishchuk, O P
Geurts, F J M
Ghosh, T K
Glasow, R
Sen-Gupta, S K
Guskov, B
Gustafsson, Hans Åke
Gutbrod, H H
Higuchi, R
Hrivnacova, I
Ippolitov, M S
Kalechofsky, H
Kamermans, R
Kampert, K H
Karadzhev, K
Karpio, K
Kato, S
Kees, S
Kim, H
Kolb, B W
Kosarev, I G
Kucheryaev, I
Krümpel, T
Kugler, A
Kulinich, P A
Kurata, M
Kurita, K
Kuzmin, N A
Langbein, I
Lebedev, A
Lee, Y Y
Löhner, H
Luquin, Lionel
Mahapatra, D P
Man'ko, V I
Martin, M
Martínez, G
Maksimov, A
Mehdiyev, R
Mgebrishvili, G
Miake, Y
Mikhalev, D
Mir, M F
Mishra, G C
Miyamoto, Y
Morrison, D
Mukhopadhyay, D S
Myalkovskii, V
Naef, H
Nandi, B K
Nayak, S K
Nayak, T K
Neumaier, S
Nyanin, A
Nikitin, V A
Nikolaev, S
Nilsson, P O
Nishimura, S
Nomokonov, V P
Nystrand, J
Obenshain, F E
Oskarsson, A
Otterlund, I
Pachr, M
Parfenov, A
Pavlyuk, S
Peitzmann, Thomas
Petracek, V
Plasil, F
Pinganaud, W
Purschke, M L
Räven, B
Rak, J
Raniwala, R
Raniwala, S
Ramamurthy, V S
Rao, N K
Retière, F
Reygers, K
Roland, G
Rosselet, L
Rufanov, I A
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
Sibiryak, Yu
Siemiarczuk, T
Silvermyr, D
Sinha, B C
Slavin, N V
Söderström, K
Solomey, Nickolas
Sørensen, S P
Stankus, P
Stefanek, G
Steinberg, P
Stenlund, E
Stüken, D
Sumbera, M
Svensson, T
Trivedi, M D
Tsvetkov, A A
Tykarski, L
Urbahn, J
Van den Pijll, E C
van Eijndhoven, N
van Nieuwenhuizen, G J
Vinogradov, A
Viyogi, Y P
Vodopyanov, A S
Vörös, S
Wyslouch, B
Yagi, K
Yokota, Y
Young, G R
author_sort Aggarwal, M M
collection CERN
description The only known way to obtain indirect experimental information on the space-time structure of the particle emitting source created in relativistic heavy-ion collisions is two-particle (Hanbury-Brown- Twiss (HBT)) correlations. In particular a strong correlation between the momenta of the particles and the space-time emission point indicate expanding sources as predicted by hydrodynamical models. Calculations suggest that the contribution of the various resonances that decay after freezeout is mainly seen as a reduction of the correlation strength lambda at small K/sub T/ and distortion of the Gaussian shape for HBT spectra. (10 refs).
id cern-431443
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 1999
record_format invenio
spelling cern-4314432019-09-30T06:29:59Zdoi:10.1016/S0375-9474(99)85057-Xhttp://cds.cern.ch/record/431443engAggarwal, M MAgnihotri, AAhammed, ZAngelis, Aris L SAntonenko, V GArefev, VAstakhov, V AAvdeichikov, VAwes, T CBaba, P V K SBadyal, S KBaldin, ABarabash, LBarlag, CBathe, SBatyunya, BBernier, TBhalla, K BBhatia, V SBlume, CBohne, E MBöröcz, Z KBucher, DBuijs, ABüsching, HCarlén, LChalyshev, VChattopadhyay, SCherbachev, RChujo, TClaussen, ADas, A CDecowski, M PDelagrange, HDzhordzhadze, VDönni, PDubovik, IDutt, S KDutta-Majumdar, M REl-Chenawi, K FEliseev, SEnosawa, KFoka, P YFokin, S LFrolov, VGanti, M SGarpman, S I AGavrishchuk, O PGeurts, F J MGhosh, T KGlasow, RSen-Gupta, S KGuskov, BGustafsson, Hans ÅkeGutbrod, H HHiguchi, RHrivnacova, IIppolitov, M SKalechofsky, HKamermans, RKampert, K HKaradzhev, KKarpio, KKato, SKees, SKim, HKolb, B WKosarev, I GKucheryaev, IKrümpel, TKugler, AKulinich, P AKurata, MKurita, KKuzmin, N ALangbein, ILebedev, ALee, Y YLöhner, HLuquin, LionelMahapatra, D PMan'ko, V IMartin, MMartínez, GMaksimov, AMehdiyev, RMgebrishvili, GMiake, YMikhalev, DMir, M FMishra, G CMiyamoto, YMorrison, DMukhopadhyay, D SMyalkovskii, VNaef, HNandi, B KNayak, S KNayak, T KNeumaier, SNyanin, ANikitin, V ANikolaev, SNilsson, P ONishimura, SNomokonov, V PNystrand, JObenshain, F EOskarsson, AOtterlund, IPachr, MParfenov, APavlyuk, SPeitzmann, ThomasPetracek, VPlasil, FPinganaud, WPurschke, M LRäven, BRak, JRaniwala, RRaniwala, SRamamurthy, V SRao, N KRetière, FReygers, KRoland, GRosselet, LRufanov, I ARoy, CRubio, J MSako, HSambyal, S SSanto, RSato, SSchlagheck, HSchmidt, H RSchutz, YShabratova, GShah, T HSibiryak, YuSiemiarczuk, TSilvermyr, DSinha, B CSlavin, N VSöderström, KSolomey, NickolasSørensen, S PStankus, PStefanek, GSteinberg, PStenlund, EStüken, DSumbera, MSvensson, TTrivedi, M DTsvetkov, A ATykarski, LUrbahn, JVan den Pijll, E Cvan Eijndhoven, Nvan Nieuwenhuizen, G JVinogradov, AViyogi, Y PVodopyanov, A SVörös, SWyslouch, BYagi, KYokota, YYoung, G RTwo-particle correlations in 158 A GeV collisionsNuclear PhysicsThe only known way to obtain indirect experimental information on the space-time structure of the particle emitting source created in relativistic heavy-ion collisions is two-particle (Hanbury-Brown- Twiss (HBT)) correlations. In particular a strong correlation between the momenta of the particles and the space-time emission point indicate expanding sources as predicted by hydrodynamical models. Calculations suggest that the contribution of the various resonances that decay after freezeout is mainly seen as a reduction of the correlation strength lambda at small K/sub T/ and distortion of the Gaussian shape for HBT spectra. (10 refs).oai:cds.cern.ch:4314431999
spellingShingle Nuclear Physics
Aggarwal, M M
Agnihotri, A
Ahammed, Z
Angelis, Aris L S
Antonenko, V G
Arefev, V
Astakhov, V A
Avdeichikov, V
Awes, T C
Baba, P V K S
Badyal, S K
Baldin, A
Barabash, L
Barlag, C
Bathe, S
Batyunya, B
Bernier, T
Bhalla, K B
Bhatia, V S
Blume, C
Bohne, E M
Böröcz, Z K
Bucher, D
Buijs, A
Büsching, H
Carlén, L
Chalyshev, V
Chattopadhyay, S
Cherbachev, R
Chujo, T
Claussen, A
Das, A C
Decowski, M P
Delagrange, H
Dzhordzhadze, V
Dönni, P
Dubovik, I
Dutt, S K
Dutta-Majumdar, M R
El-Chenawi, K F
Eliseev, S
Enosawa, K
Foka, P Y
Fokin, S L
Frolov, V
Ganti, M S
Garpman, S I A
Gavrishchuk, O P
Geurts, F J M
Ghosh, T K
Glasow, R
Sen-Gupta, S K
Guskov, B
Gustafsson, Hans Åke
Gutbrod, H H
Higuchi, R
Hrivnacova, I
Ippolitov, M S
Kalechofsky, H
Kamermans, R
Kampert, K H
Karadzhev, K
Karpio, K
Kato, S
Kees, S
Kim, H
Kolb, B W
Kosarev, I G
Kucheryaev, I
Krümpel, T
Kugler, A
Kulinich, P A
Kurata, M
Kurita, K
Kuzmin, N A
Langbein, I
Lebedev, A
Lee, Y Y
Löhner, H
Luquin, Lionel
Mahapatra, D P
Man'ko, V I
Martin, M
Martínez, G
Maksimov, A
Mehdiyev, R
Mgebrishvili, G
Miake, Y
Mikhalev, D
Mir, M F
Mishra, G C
Miyamoto, Y
Morrison, D
Mukhopadhyay, D S
Myalkovskii, V
Naef, H
Nandi, B K
Nayak, S K
Nayak, T K
Neumaier, S
Nyanin, A
Nikitin, V A
Nikolaev, S
Nilsson, P O
Nishimura, S
Nomokonov, V P
Nystrand, J
Obenshain, F E
Oskarsson, A
Otterlund, I
Pachr, M
Parfenov, A
Pavlyuk, S
Peitzmann, Thomas
Petracek, V
Plasil, F
Pinganaud, W
Purschke, M L
Räven, B
Rak, J
Raniwala, R
Raniwala, S
Ramamurthy, V S
Rao, N K
Retière, F
Reygers, K
Roland, G
Rosselet, L
Rufanov, I A
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
Sibiryak, Yu
Siemiarczuk, T
Silvermyr, D
Sinha, B C
Slavin, N V
Söderström, K
Solomey, Nickolas
Sørensen, S P
Stankus, P
Stefanek, G
Steinberg, P
Stenlund, E
Stüken, D
Sumbera, M
Svensson, T
Trivedi, M D
Tsvetkov, A A
Tykarski, L
Urbahn, J
Van den Pijll, E C
van Eijndhoven, N
van Nieuwenhuizen, G J
Vinogradov, A
Viyogi, Y P
Vodopyanov, A S
Vörös, S
Wyslouch, B
Yagi, K
Yokota, Y
Young, G R
Two-particle correlations in 158 A GeV collisions
title Two-particle correlations in 158 A GeV collisions
title_full Two-particle correlations in 158 A GeV collisions
title_fullStr Two-particle correlations in 158 A GeV collisions
title_full_unstemmed Two-particle correlations in 158 A GeV collisions
title_short Two-particle correlations in 158 A GeV collisions
title_sort two-particle correlations in 158 a gev collisions
topic Nuclear Physics
url https://dx.doi.org/10.1016/S0375-9474(99)85057-X
http://cds.cern.ch/record/431443
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AT mirmf twoparticlecorrelationsin158agevcollisions
AT mishragc twoparticlecorrelationsin158agevcollisions
AT miyamotoy twoparticlecorrelationsin158agevcollisions
AT morrisond twoparticlecorrelationsin158agevcollisions
AT mukhopadhyayds twoparticlecorrelationsin158agevcollisions
AT myalkovskiiv twoparticlecorrelationsin158agevcollisions
AT naefh twoparticlecorrelationsin158agevcollisions
AT nandibk twoparticlecorrelationsin158agevcollisions
AT nayaksk twoparticlecorrelationsin158agevcollisions
AT nayaktk twoparticlecorrelationsin158agevcollisions
AT neumaiers twoparticlecorrelationsin158agevcollisions
AT nyanina twoparticlecorrelationsin158agevcollisions
AT nikitinva twoparticlecorrelationsin158agevcollisions
AT nikolaevs twoparticlecorrelationsin158agevcollisions
AT nilssonpo twoparticlecorrelationsin158agevcollisions
AT nishimuras twoparticlecorrelationsin158agevcollisions
AT nomokonovvp twoparticlecorrelationsin158agevcollisions
AT nystrandj twoparticlecorrelationsin158agevcollisions
AT obenshainfe twoparticlecorrelationsin158agevcollisions
AT oskarssona twoparticlecorrelationsin158agevcollisions
AT otterlundi twoparticlecorrelationsin158agevcollisions
AT pachrm twoparticlecorrelationsin158agevcollisions
AT parfenova twoparticlecorrelationsin158agevcollisions
AT pavlyuks twoparticlecorrelationsin158agevcollisions
AT peitzmannthomas twoparticlecorrelationsin158agevcollisions
AT petracekv twoparticlecorrelationsin158agevcollisions
AT plasilf twoparticlecorrelationsin158agevcollisions
AT pinganaudw twoparticlecorrelationsin158agevcollisions
AT purschkeml twoparticlecorrelationsin158agevcollisions
AT ravenb twoparticlecorrelationsin158agevcollisions
AT rakj twoparticlecorrelationsin158agevcollisions
AT raniwalar twoparticlecorrelationsin158agevcollisions
AT raniwalas twoparticlecorrelationsin158agevcollisions
AT ramamurthyvs twoparticlecorrelationsin158agevcollisions
AT raonk twoparticlecorrelationsin158agevcollisions
AT retieref twoparticlecorrelationsin158agevcollisions
AT reygersk twoparticlecorrelationsin158agevcollisions
AT rolandg twoparticlecorrelationsin158agevcollisions
AT rosseletl twoparticlecorrelationsin158agevcollisions
AT rufanovia twoparticlecorrelationsin158agevcollisions
AT royc twoparticlecorrelationsin158agevcollisions
AT rubiojm twoparticlecorrelationsin158agevcollisions
AT sakoh twoparticlecorrelationsin158agevcollisions
AT sambyalss twoparticlecorrelationsin158agevcollisions
AT santor twoparticlecorrelationsin158agevcollisions
AT satos twoparticlecorrelationsin158agevcollisions
AT schlagheckh twoparticlecorrelationsin158agevcollisions
AT schmidthr twoparticlecorrelationsin158agevcollisions
AT schutzy twoparticlecorrelationsin158agevcollisions
AT shabratovag twoparticlecorrelationsin158agevcollisions
AT shahth twoparticlecorrelationsin158agevcollisions
AT sibiryakyu twoparticlecorrelationsin158agevcollisions
AT siemiarczukt twoparticlecorrelationsin158agevcollisions
AT silvermyrd twoparticlecorrelationsin158agevcollisions
AT sinhabc twoparticlecorrelationsin158agevcollisions
AT slavinnv twoparticlecorrelationsin158agevcollisions
AT soderstromk twoparticlecorrelationsin158agevcollisions
AT solomeynickolas twoparticlecorrelationsin158agevcollisions
AT sørensensp twoparticlecorrelationsin158agevcollisions
AT stankusp twoparticlecorrelationsin158agevcollisions
AT stefanekg twoparticlecorrelationsin158agevcollisions
AT steinbergp twoparticlecorrelationsin158agevcollisions
AT stenlunde twoparticlecorrelationsin158agevcollisions
AT stukend twoparticlecorrelationsin158agevcollisions
AT sumberam twoparticlecorrelationsin158agevcollisions
AT svenssont twoparticlecorrelationsin158agevcollisions
AT trivedimd twoparticlecorrelationsin158agevcollisions
AT tsvetkovaa twoparticlecorrelationsin158agevcollisions
AT tykarskil twoparticlecorrelationsin158agevcollisions
AT urbahnj twoparticlecorrelationsin158agevcollisions
AT vandenpijllec twoparticlecorrelationsin158agevcollisions
AT vaneijndhovenn twoparticlecorrelationsin158agevcollisions
AT vannieuwenhuizengj twoparticlecorrelationsin158agevcollisions
AT vinogradova twoparticlecorrelationsin158agevcollisions
AT viyogiyp twoparticlecorrelationsin158agevcollisions
AT vodopyanovas twoparticlecorrelationsin158agevcollisions
AT voross twoparticlecorrelationsin158agevcollisions
AT wyslouchb twoparticlecorrelationsin158agevcollisions
AT yagik twoparticlecorrelationsin158agevcollisions
AT yokotay twoparticlecorrelationsin158agevcollisions
AT younggr twoparticlecorrelationsin158agevcollisions

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