- Wosiek, Barbara;
- Alver, B;
- Back, BB;
- Baker, MD;
- Ballintijn, M;
- Barton, DS;
- Betts, RR;
- Bickley, AA;
- Bindel, R;
- Busza, W;
- Carroll, A;
- Chai, Z;
- Chetluru, V;
- Decowski, MP;
- Garcia, E;
- Gburek, T;
- George, N;
- Gulbrandsen, K;
- Halliwell, C;
- Hamblen, J;
- Harnarine, I;
- Hauer, M;
- Henderson, C;
- Hofman, DJ;
- Hollis, RS;
- Holynski, R;
- Holzman, B;
- Iordanova, A;
- Johnson, E;
- Kane, JL;
- Khan, N;
- Kulinich, P;
- Kuo, CM;
- Li, W;
- Lin, WT;
- Loizides, C;
- Manly, S;
- Mignerey, AC;
- Nouicer, R;
- Olszewski, A;
- Pak, R;
- Reed, C;
- Richardson, E;
- Roland, C;
- Roland, G;
- Sagerer, J;
- Seals, H;
- Sedykh, I;
- Smith, CE;
- Stankiewicz, MA;
- Steinberg, P;
- Stephans, GSF;
- Sukhanov, A;
- Szostak, A;
- Tonjes, MB;
- Trzupek, A;
- Vale, C;
- van Nieuwenhuizen, GJ;
- Vaurynovich, SS;
- Verdier, R;
- Veres, GI;
- Walters, P;
- Wenger, E;
- Willhelm, D;
- Wolfs, FLH;
- Wozniak, K;
- Wyngaardt, S;
- Wyslouch, B
Recently PHOBOS has focused on the study of fluctuations and correlations in particle production in heavy-ion collisions at the highest energies delivered by the Relativistic Heavy Ion Collider (RHIC). In this report, we present results on event-by-event elliptic flow fluctuations in Au + Au collisions at √sNN =200 GeV. A data-driven method was used to estimate the dominant contribution from non-flow correlations. Over the broad range of collision centralities, the observed large elliptic flow fluctuations are in agreement with the fluctuations in the initial source eccentricity.
