Presentation is loading. Please wait.

Presentation is loading. Please wait.

AGS/RHIC User’s Meeting May 12 James Dunlop 1 Brookhaven National Laboratory for the STAR Collaboration Highlights from STAR.

Published byLambert Higgins Modified over 8 years ago

Similar presentations

Presentation on theme: "AGS/RHIC User’s Meeting May 12 James Dunlop 1 Brookhaven National Laboratory for the STAR Collaboration Highlights from STAR."— Presentation transcript:

1 AGS/RHIC User’s Meeting May 12 James Dunlop 1 Brookhaven National Laboratory for the STAR Collaboration Highlights from STAR

2 AGS/RHIC User’s Meeting May 12 James Dunlop 2 The STAR Detector MagnetCoilsCentralTriggerBarrel(CTB)ZCalTimeProjectionChamber(TPC) Year 2000 Barrel EM Cal (BEMC) Silicon Vertex Tracker (SVT) Silicon Strip Detector (SSD) FTPC Endcap EM Cal FPD TOFp, TOFr Year 2001+ DAQ: currently running at ~100x design rate for TPC

3 AGS/RHIC User’s Meeting May 12 James Dunlop 3 Au+X Datasets  This year: extremely successful run, all BUR goals substantially met  Greater than order of magnitude increase in dataset  Significant new challenge for data processing

4 AGS/RHIC User’s Meeting May 12 James Dunlop 4 pQCD calculations consistent with measured large-    cross sections Large transverse single-spin effects observed for  s = 200 GeV pp collisions Collins effect  transversity Sivers effect  orbital angular momentum Additional measurements required to disentangle contributions STAR collaboration PRL 92, 171801 (2004) Spin: Forward  0

5 AGS/RHIC User’s Meeting May 12 James Dunlop 5 A LL for at  s = 200 GeV  sensitivity to gluon polarization x  G(x,Q 2 ) 10 -4 10 -3 10 -2 10 -1 1 x STAR Di-jet event in STAR barrel EMC E T of Jet [GeV] Projections for 2003 Data Achieved in 2003: ● Ave Polarization / Beam ~ 0.25 ● RHIC Delivered Integrated L ~ 0.4 pb -1 Goal for 2005 ● Ave Polarization / Beam ~ 0.40 ● RHIC Delivered Integrated Luminosity ~ 5 pb -1 GRSV maximum x  G(x,Q 2 )  A LL ~ 0.06 for jet production

6 AGS/RHIC User’s Meeting May 12 James Dunlop 6 e + e - pairs accompanied by nuclear breakup Strong fields: Z  EM ~ 0.6 –Higher order corrections? Full lowest-order QED necessary Limits set on higher order corrections Further topic: exotic meson spectroscopy Preliminary Pair P t (GeVc) Pair Mass (GeV) STAR Preliminary STAR Preliminary UPC collisions: QED J. Adams et al., nucl-ex/0404012, submitted to PRL

7 AGS/RHIC User’s Meeting May 12 James Dunlop 7 Jet Quenching  Au + Au, R AA 1  p+p, away side jet exists  Au + Au, away-side correlation suppressed  d+Au, away-side correlation exists  jet quenching ? J. Adams et al., Phys. Rev. Lett. 91, 072304 (2003). Pedestal&flow subtracted

8 AGS/RHIC User’s Meeting May 12 James Dunlop 8 Inclusive hadrons: Evolution with √s Dominant feature: order of magnitude increase at high p T

9 AGS/RHIC User’s Meeting May 12 James Dunlop 9 Inclusive hadron suppression 2  bins, driven by p+p –  = 0: p T <~6 GeV –  = 0.7: p T <~10 GeV Significant suppression seen at 62 and 200 GeV 1/3 of dataset: quantitative treatment awaits full analysis 200 GeV |  | < 0.5 62 GeV |  | < 0.5 62 GeV 0.5 < |  | < 0.9

10 AGS/RHIC User’s Meeting May 12 James Dunlop 10 R CP : Centrality dependence Significant suppression using peripheral as reference relative to both binary and participant scaling 62 GeV |  | < 0.5 62 GeV 0.5 < |  | < 0.9 200 GeV |  | < 0.5 R CP

11 AGS/RHIC User’s Meeting May 12 James Dunlop 11 Geometry of away-side suppression  Au+Au: Away-side suppression is larger in the out-of- plane direction compared to in-plane  Geometry of dense medium imprints itself on correlations STAR Preliminary ?

12 AGS/RHIC User’s Meeting May 12 James Dunlop parton modification in expanding color medium: elongation on   narrowing on   soft partons probe color medium properties peak widths Au-Au p-p reference Au-Au collisions central peripheral 0.15 < p t < 0.5 GeV/c0.5 < p t < 2.0 GeV/c 0.15 < p t < 2.0 GeV/c STAR preliminary Number Correlations at Lower p T

13 AGS/RHIC User’s Meeting May 12 James Dunlop single point statistical reference data 2D scale inversion  p t  fluctuation inversion minijet dissipation & velocity/temperature structure: elongation on   necking on   200 GeV Au-Au data fluctuation scale dependence  two- particle correlations STAR preliminary soft partons as extended objects peripheral central   Fluctuations → Correlations

14 AGS/RHIC User’s Meeting May 12 James Dunlop 14 P T is balanced by many gluons “Mono-jet” Dilute parton system (deuteron) Dense gluon field (Au)  E  > 25 GeV     4   Beam View Top View Statistical errors only 25<E  <35GeV 35<E  <45GeV STAR Preliminary dAu Correlations: probing low x Fixed  as E & p T grows Large   0 +h ± correlations Suppressed at small, Consistent with CGC picture Consistent in d+Au and p+p at larger and as expected by HIJING

15 AGS/RHIC User’s Meeting May 12 James Dunlop 15 Baryon Enhancement  Simple fragmentation picture fails for p T less than ~6 GeV/c  p+pbar/h enhancement in Au + Au not fully explained by Cronin effect  Strong baryon/meson modification in Au + Au also in  /K 0 s ratio J. Adams et al., nucl-ex/0309012 PHENIX STAR preliminary

16 AGS/RHIC User’s Meeting May 12 James Dunlop 16 R CP of Strange Hadrons  Two groups (2<p t <6GeV/c): - K 0 s, K , K*,   mesons - , ,   baryons  dependence on number of valence quarks  limited to p t <6GeV/c ?  hadron production from quark recombination/ coalescence ?

17 AGS/RHIC User’s Meeting May 12 James Dunlop 17  Meson – baryon Effect ?  Exp. data consistent with quark recombination/coalescence scenario S.A. Voloshin, Nucl. Phys. A715, 379 (2003). Z. Lin et al., Phys. Rev. Lett., 89, 202302 (2002). R. Fries et al., nucl-th/0306027. D. Molnar and S.A. Voloshin, PRL 91, 092301(2003).  Further tests: ,  0, K*, … v 2 : Scaling

18 AGS/RHIC User’s Meeting May 12 James Dunlop 18 First D Measurement at RHIC  D 0, D , D* spectra from d+Au  Cover range 0.2 < p T < 11 GeV/c  Necessary baseline for Au+Au

19 AGS/RHIC User’s Meeting May 12 James Dunlop 19 Heavy Flavor D,B  e + X  (e + + e - )/2 spectrum, background subtracted  e-PID by TOF, dE/dx and EMC, measurements consistent  Consistent with measured D meson yield  PYTHIA:c  e, dominates at p T ~ 2-4 GeV/c b  e, dominates at p T > 4-5 GeV/c

20 AGS/RHIC User’s Meeting May 12 James Dunlop 20 PRELIMINARY HBT probes space-time evolution of system and system size at freeze-out Studies at √s=130, 200 GeV yielded similar HBT radii to SPS energies (“HBT puzzle”) Severe challenge to hydrodynamic calculations At an intermediate energy, a larger expansion time might point to a long-lived mixed phase  HBT interferometry @ 62 GeV

21 AGS/RHIC User’s Meeting May 12 James Dunlop 21 0-5% events, fully consistent Coulomb treatment No sign of qualitatively different expansion dynamics at 62 GeV PRELIMINARY Systematics of central 0-5% events Fully consistent Coulomb treatment in k T dependence No sign of qualitatively different expansion dynamics at 62 GeV Continues to be a severe challenge HBT from SPS to RHIC

22 AGS/RHIC User’s Meeting May 12 James Dunlop 22 Outlook Wealth of results from STAR –Critical assessment QGP whitepaper: June Current dataset: qualitative increase in statistical power –Extend p T reach well into perturbative regime Extensive correlation analyses –Charm identification and suppression (or lack) –Extend particle identification @ intermediate p T Test v 2 and R CP : where does it scale, and where not? –Extend systematics with 62 GeV Are there any qualitative differences? Can quantitative differences be explained?

23 AGS/RHIC User’s Meeting May 12 James Dunlop 23 England: University of Birmingham France: Institut de Recherches Subatomiques Strasbourg, SUBATECH - Nantes Germany: Max Planck Institute – Munich University of Frankfurt India: Bhubaneswar, Jammu, IIT-Mumbai, Panjab, Rajasthan, VECC Netherlands: NIKHEF Poland: Warsaw University of Technology Russia: MEPHI – Moscow, LPP/LHE JINR – Dubna, IHEP – Protvino Switzerland: University of Bern U.S. Labs: Argonne, Lawrence Berkeley, and Brookhaven National Labs U.S. Universities: UC Berkeley, UC Davis, UCLA, Caltech, Carnegie Mellon, Creighton, Indiana, Kent State, MIT, MSU, CCNY, Ohio State, Penn State, Purdue, Rice, Texas A&M, UT Austin, Washington, Wayne State, Valparaiso, Yale Brazil: Universidade de Sao Paolo China: IHEP - Beijing, IPP - Wuhan, USTC, Tsinghua, SINR, IMP Lanzhou Croatia: Zagreb University Czech Republic: Nuclear Physics Institute The STAR Collaboration: 51 Institutions, ~ 500 People

24 AGS/RHIC User’s Meeting May 12 James Dunlop 24 Charged hadron spectra @ 62 GeV p+p reference from ISRAu+Au from STAR Both p+p reference and Au+Au spectra out to ~12 GeV/c 1/3 of the Au+Au dataset analyzed

Download ppt "AGS/RHIC User’s Meeting May 12 James Dunlop 1 Brookhaven National Laboratory for the STAR Collaboration Highlights from STAR."

Similar presentations

1 Jet Structure of Baryons and Mesons in Nuclear Collisions l Why jets in nuclear collisions? l Initial state l What happens in the nuclear medium? l.

1 Jet Structure of Baryons and Mesons in Nuclear Collisions l Why jets in nuclear collisions? l Initial state l What happens in the nuclear medium? l.
Pawan Kumar Netrakanti QGP-MEET 2006, VECC, February 2006 1 Identified hadron spectra at large transverse momentum in p + p and d +Au collisions at  s.

Pawan Kumar Netrakanti QGP-MEET 2006, VECC, February Identified hadron spectra at large transverse momentum in p + p and d +Au collisions at  s.
Jet probes of nuclear collisions: From RHIC to LHC Dan Magestro, The Ohio State University Midwest Critical Mass October 21-22, 2005.

Jet probes of nuclear collisions: From RHIC to LHC Dan Magestro, The Ohio State University Midwest Critical Mass October 21-22, 2005.
Identified particle transverse momentum distributions in 200 GeV Au+Au collisions at RHIC 刘海东 中国科技大学.

Identified particle transverse momentum distributions in 200 GeV Au+Au collisions at RHIC 刘海东 中国科技大学.
STAR d+Au and final-state suppression in Au+Au1 Evidence from d+Au measurements for final-state suppression of high p T hadrons in Au+Au collisions at.

STAR d+Au and final-state suppression in Au+Au1 Evidence from d+Au measurements for final-state suppression of high p T hadrons in Au+Au collisions at.
STAR Silicon Vertex Tracker Detector (SVT) Update

STAR Silicon Vertex Tracker Detector (SVT) Update
Evidence for a new phase of matter measured with the STAR experiment at RHIC Rene Bellwied Wayne State University International Nuclear Physics Conference.

Evidence for a new phase of matter measured with the STAR experiment at RHIC Rene Bellwied Wayne State University International Nuclear Physics Conference.
Quantum Chromodynamics Quantum Chromodynamics (QCD) is the established theory of strong interactions Gluons hold quarks together to from hadrons Gluons.

Quantum Chromodynamics Quantum Chromodynamics (QCD) is the established theory of strong interactions Gluons hold quarks together to from hadrons Gluons.
03/14/2006WWND2006 at La Jolla1 Identified baryon and meson spectra at intermediate and high p T in 200 GeV Au+Au Collisions Outline: Motivation Intermediate.

03/14/2006WWND2006 at La Jolla1 Identified baryon and meson spectra at intermediate and high p T in 200 GeV Au+Au Collisions Outline: Motivation Intermediate.
Dunlop, WW 2006 1 What More Can Be Learned from High Pt Probes at RHIC? James Dunlop Brookhaven National Laboratory.

Dunlop, WW What More Can Be Learned from High Pt Probes at RHIC? James Dunlop Brookhaven National Laboratory.
Jana Bielcikova (Yale University) for the STAR Collaboration 23 rd Winter Workshop on Nuclear Dynamics February 12-18, 2007 Two-particle correlations with.

Jana Bielcikova (Yale University) for the STAR Collaboration 23 rd Winter Workshop on Nuclear Dynamics February 12-18, 2007 Two-particle correlations with.
Strange hard probes to characterize the partonic medium at RHIC Rene Bellwied Wayne State University Phase Transition In Strongly Interacting Matter, NPDC18.

Strange hard probes to characterize the partonic medium at RHIC Rene Bellwied Wayne State University Phase Transition In Strongly Interacting Matter, NPDC18.
“Soft physics in STAR” Lee Barnby for the STAR Collaboration July 21st 2005. HEP2005, Lisboa, Portugal.

“Soft physics in STAR” Lee Barnby for the STAR Collaboration July 21st HEP2005, Lisboa, Portugal.
Lake Louise 2006 Jaroslav Bielcik, Yale/BNL 1  Motivation  STAR and electron ID  Analysis  Results: p+p, d+Au, and Au+Au at  s NN = 200 GeV  Summary.

Lake Louise 2006 Jaroslav Bielcik, Yale/BNL 1  Motivation  STAR and electron ID  Analysis  Results: p+p, d+Au, and Au+Au at  s NN = 200 GeV  Summary.
Identified Particle Ratios at large p T in Au+Au collisions at  s NN = 200 GeV Matthew A. C. Lamont for the STAR Collaboration - Talk Outline - Physics.

Identified Particle Ratios at large p T in Au+Au collisions at  s NN = 200 GeV Matthew A. C. Lamont for the STAR Collaboration - Talk Outline - Physics.
QM2006 Shanghai, China 1 High-p T Identified Hadron Production in Au+Au and Cu+Cu Collisions at RHIC-PHENIX Masahiro Konno (Univ. of Tsukuba) for the PHENIX.

QM2006 Shanghai, China 1 High-p T Identified Hadron Production in Au+Au and Cu+Cu Collisions at RHIC-PHENIX Masahiro Konno (Univ. of Tsukuba) for the PHENIX.
What have we learned from RHIC, So far? RHIC has taken data in: 2001: AuAu (130GeV) 2002: AuAu, pp(200 GeV) 2003: pp, dAu (200 GeV)  Any nucleus on any.

What have we learned from RHIC, So far? RHIC has taken data in: 2001: AuAu (130GeV) 2002: AuAu, pp(200 GeV) 2003: pp, dAu (200 GeV)  Any nucleus on any.
STAR HBT 30 Aug 2001Mike Lisa - ACS Nuclear Division - Chicago 1 Characterizing the freezeout at RHIC: HBT, spectra, and elliptic flow U.S. Labs: Argonne,

STAR HBT 30 Aug 2001Mike Lisa - ACS Nuclear Division - Chicago 1 Characterizing the freezeout at RHIC: HBT, spectra, and elliptic flow U.S. Labs: Argonne,
1 STAR Strange Particle Ratios on the Near- & Away-Sides of Jets at RHIC Jiaxu Zuo Shanghai Institute of Applied Physics & BNL (For STAR Collaboration)

1 STAR Strange Particle Ratios on the Near- & Away-Sides of Jets at RHIC Jiaxu Zuo Shanghai Institute of Applied Physics & BNL (For STAR Collaboration)
Strong and Electroweak Matter, June 16, 2004 Manuel Calderón de la Barca Sánchez RHIC Collisions The road so far. RHIC Collisions The road so far.

Strong and Electroweak Matter, June 16, 2004 Manuel Calderón de la Barca Sánchez RHIC Collisions The road so far. RHIC Collisions The road so far.

Similar presentations

Ads by Google