Presentation is loading. Please wait.

Presentation is loading. Please wait.

J/ ψ and Υ measurements in Mauro R. Cosentino for the STAR Collaboration Universidade de São Paulo 1 24 th Winter Workshop, South Padre, TX.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "J/ ψ and Υ measurements in Mauro R. Cosentino for the STAR Collaboration Universidade de São Paulo 1 24 th Winter Workshop, South Padre, TX."— Presentation transcript:

1 J/ ψ and Υ measurements in Mauro R. Cosentino for the STAR Collaboration Universidade de São Paulo 1 24 th Winter Workshop, South Padre, TX

2 Outlook Motivation Experimental Setup Data Analysis Results Conclusions Perspectives 2WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

3 What Quarkonia Can Tell? Suppression in A+A by color screening Sequential suppression Hot wind dissociation Is enough to measure quarkonia in A+A? NO! 3WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino H. Liu, K. Rajagopal and U.A. Wiedemann, PRL 98, 182301(2007) and hep-ph/0607062 H. Satz, Nucl. Phys. A (783):249-260(2007)

4 Quarkonia Production Base line: p+p – QQ pairs come from gluon fusion – Color Singlet Model – NRQCD (includes Octate states) – Color Evaporation Model CNM Effects: d+Au – Shadowing and Anti-shadowing – Gluon saturation – Nuclear absorption 4WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

5 The Experiment 0< φ <2π; |η|<1 |B|= 0.5 T TPC – Tracking detector – PID BEMC – Main quarkonia trigger detector – PID CTB – Auxiliar quarkonia trigger detector 5WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

6 Quarkonia measurement: How did we make it? 6WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino QQ->e + e - golden decay Rare Probes: TRIGGER! Exploit full STAR acceptance Level 0: Topologic – 6φ sectors – Search BTOW E>th0 – Search in non-adjacent sectors – At least 2 BTOW>th0 Υ : Only 1 BTOW

7 7WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino J/ψ: CTB veto to photons L0 HT  seeds L2 Seeds  Clusters Tracks  straight lines Vertex  BBC / (0,0,0) θ 12 angle given by C 1 -V-C 2 M =  [2E 1 E 2 (1-cos θ 12 )] 2.2<M J/ψ <5.0; 6<M Υ <15 (GeV/c 2 ) Trigger: Level 2, algorithm Quarkonia measurement: How did we make it?

8 8WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino High-p T J/ ψ Quarkonia measurement: How did we make it? p+p data sample: 1. EMC triggered events in year 2005 E T >3.5 GeV Integrated luminosity: 3 (pb) -1 2. EMC triggered events in year 2006 E T >5.4 GeV Integrated luminosity: 11 (pb) -1 Cu+Cu data sample: 1. EMC triggered events in year 2005 E T >3.75 GeV Integrated luminosity: 0.9 (nb) -1 pp-equivalent: 3 (pb) -1 p+p data sample: 1. J/ψ triggered events in year 2006 Integrated luminosity: 377 (nb) -1 2. Υ triggered events in year 2006 Integrated luminosity: 9(pb) -1 Au+Au data sample: 1. Υ triggered events in year 2007 Integrated luminosity: 300(μb) -1 pp-equivalent: 12(pb) -1 Triggered data

9 9WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Quarkonia measurement: How did we make it? Electron Identification TPC – dE/dx BEMC – p track /E tow BEMC – Shower Max (High-p T J/ ψ ) 4<p T <5 GeV/c dE/dx projection

10 J/ ψ Results 10WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino EMC+TPC electrons:  1, p T >4.0 GeV/c TPC only electrons:  1, p T >1.2 GeV/c Reach higher p T (~14GeV/c) J/ ψ trigger HT trigger 0<p T <5.5 GeV/c MC describes position and width Z. Tang, QM2008 QM2008

11 J/ ψ Results 11 Consistent with previous measurements Significantly increased p T range Consistent with Color Evaporation calculations (R. Vogt, private communication) WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

12 J/ ψ Results 12 NRQCD p T calculation inconsistent with data (F. Cooper, M. X. Liu and G. Nayak, PRL 93:171801, 2004) } WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

13 J/ ψ Results 13WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino = 3,43±0,68 (GeV/c) 2 =  2,4+1,2ln(s 1/2 ) STAR Measurement × world data CEM calculation, M. Bejidian et al., hep-ph/0311048

14 J/ ψ Results 14WWND2008 – Texas, USA, Apr. 10, 2008 Extend the p T range to 10GeV/c Consistent with no suppression at high p T : R AA (p T >5 GeV/c) = 0.9±0.2 Indicates R AA increase from low p T to high p T Most models expect a decrease R AA at high p T : AdS/CFT: H. Liu, K. Rajagopal and U.A. Wiedemann, PRL 98, 182301(2007) and hep-ph/0607062 Two Component Approach: X. Zhao and R. Rapp, hep-ph/07122407 Private communication Mauro R. Cosentino Z. Tang, QM2008

15 Υ Results: p+p 15WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino preliminary Υ (1S+2S+3S) total yield: integrated from 7 to 11 GeV from background-subtracted m ee distribution Peak width consistent with expected mass resolution Significance of signal is 3σ P. Djawotho, QM2006

16 Υ Results: p+p 16WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino preliminar y STAR 2006 sqrt(s)=200 GeV p+p  +  +  →e + e - cross section consistent with pQCD and world data B ee ×(dσ/dy) y=0 =91±28(stat.)±22(syst.) pb P. Djawotho, QM2006

17 Υ Results: Au+Au 17WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Stronger 4  signal First measurement of  in nucleus-nucleus collisions ever R AA in progress D. Das, QM2008

18 Conclusions 18WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino J/ψ data: –Corroborate previous measurement at same  s –Extend significantly the p T range at  s = 200 GeV –High-p T : R AA increases with p T contradicting models –Confirms that Color Singlet Model is no good for Hadroproduction –NRQCD fails to explain p T spectrum

19 Conclusions 19WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Υ data: – pp data: measurement consistent with pQCD calculations and world data – AuAu data: 1 st measurement ever! – Strong signal

20 Perspectives for Quarkonia 20WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Υ R AA coming soon At least 2 papers being prepared Run VIII (d+Au) just finished: analysis will provide information of CNM effects on Quarkonia RHIC II + DAQ1000 will allow separation of 1S, 2S and 3S Υ states and enhance statistics for J/ ψ

21 Perspectives for Quarkonia 21WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino STAR Upgrades : –Time-Of-Flight (i): improved electron identification –Time-Of-Flight (ii): allows J/ψ trigger on high multiplicity events –Heavy Flavor Tracker (i): determination of B  J/ψ contribution –Heavy Flavor Tracker (ii): γ conversion rejection –Muon Telescope Detector: will provide QQ  µ + µ - measurements with good momentum resolution THANK YOU!

22 BACKUP SLIDES 22WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino

23 23WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Anti-shadowing@RHIC: the Υ case  : large m  large x With huge  mass we move away from the “sweet spot” into anti-shadowing region Model dependent EKS: ~1.15 at  x   Affects R AA interpretation To understand we need  in d+Au Note: ~70% from gg ~29% from qg ~ 1% from qq Cannot necessarily separate initial from final state effects for  at RHIC energy

24 24WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Scaling of Charm Production Chen Zhong (STAR), J. Phys. G Nucl. Part. Phys., 34:S741-S744

25 25WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Consistency of STAR and PHENIX

26 26WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Intrinsic k T effect on p T spectrum k T =0 k T >0

27 27WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino High-pT J/ ψ in Cu+Cu 0-60%

28 28WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Mass and states 91 pb  +  +  12 pb0.53 nb2.1810.3552  17 pb0.87 nb1.9110.02326  62 pb2.6 nb2.389.46030  B ee ×(dσ/dy) y=0 (dσ/dy) y=0 B ee [%]Mass [GeV/c 2 ]State

29 29WWND2008 – Texas, USA, Apr. 10, 2008 Mauro R. Cosentino Mass Spectra (1st approach) First Rough Look: Using identical cuts as in p+p analysis. Pros : allows “apples-to-apples” comparison with p+p Cons : not optimal for Au+Au – larger background, different trigger thresholds

Download ppt "J/ ψ and Υ measurements in Mauro R. Cosentino for the STAR Collaboration Universidade de São Paulo 1 24 th Winter Workshop, South Padre, TX."

Similar presentations

417 th WE-Heraeus-Seminar Characterization of the Quark Gluon Plasma with Heavy Quarks Physikzentrum Bad Honnef June 25-28, 2008 Ralf Averbeck, Heavy-Flavor.

417 th WE-Heraeus-Seminar Characterization of the Quark Gluon Plasma with Heavy Quarks Physikzentrum Bad Honnef June 25-28, 2008 Ralf Averbeck, Heavy-Flavor.
Charm & bottom RHIC Shingo Sakai Univ. of California, Los Angeles 1.

Charm & bottom RHIC Shingo Sakai Univ. of California, Los Angeles 1.
Direct virtual photon production in Au+Au collision at 200 GeV at STAR Bingchu Huang for the STAR collaboration Brookhaven National Laboratory Aug 21 2014.

Direct virtual photon production in Au+Au collision at 200 GeV at STAR Bingchu Huang for the STAR collaboration Brookhaven National Laboratory Aug
Bingchu Huang, USTC/BNL 1 Bingchu Huang (for STAR Collaboration) University of Science and Technology of China (USTC) Brookhaven National Laboratory (BNL)

Bingchu Huang, USTC/BNL 1 Bingchu Huang (for STAR Collaboration) University of Science and Technology of China (USTC) Brookhaven National Laboratory (BNL)
Upsilon Production in Heavy Ions with STAR and CMS

Upsilon Production in Heavy Ions with STAR and CMS
Xiaorong Wang, SQM 2006 1 Measurement of Open Heavy Flavor with Single Muons in pp and dAu Collisions at 200 GeV Xiaorong Wang for PHENIX collaboration.

Xiaorong Wang, SQM Measurement of Open Heavy Flavor with Single Muons in pp and dAu Collisions at 200 GeV Xiaorong Wang for PHENIX collaboration.
1 Zhangbu Xu Brookhaven National Laboratory Quarkonium measurements with STAR Outline: High-p T J/ results J/spectrum and flow J/h correlations The.

1 Zhangbu Xu Brookhaven National Laboratory Quarkonium measurements with STAR Outline: High-p T J/ results J/spectrum and flow J/h correlations The.
 production in p+p collisions in Manuel Calderón de la Barca Sánchez UC Davis STAR Collaboration 23 d Winter Workshop on Nuclear Dynamics Big Sky, Montana.

 production in p+p collisions in Manuel Calderón de la Barca Sánchez UC Davis STAR Collaboration 23 d Winter Workshop on Nuclear Dynamics Big Sky, Montana.
Direct-Photon Production in PHENIX Oliver Zaudtke for the Collaboration Winter Workshop on Nuclear Dynamics 2006.

Direct-Photon Production in PHENIX Oliver Zaudtke for the Collaboration Winter Workshop on Nuclear Dynamics 2006.
 (  ->ee) production in d+Au collisions at STAR Haidong Liu For the Collaboration.

 (  ->ee) production in d+Au collisions at STAR Haidong Liu For the Collaboration.
Upsilon production in STAR Pibero Djawotho Indiana University Cyclotron Facility October 12, 2007 DNP 2007.

Upsilon production in STAR Pibero Djawotho Indiana University Cyclotron Facility October 12, 2007 DNP 2007.
February 10, 2011WWND: Winter Park, Colorado1 Upsilon Production and Upsilon + Hadron Correlations Matthew Cervantes for the STAR Collaboration Texas A&M.

February 10, 2011WWND: Winter Park, Colorado1 Upsilon Production and Upsilon + Hadron Correlations Matthew Cervantes for the STAR Collaboration Texas A&M.
 production in d+Au collisions at STAR Haidong Liu University of California, Davis For the STAR Collaboration.

 production in d+Au collisions at STAR Haidong Liu University of California, Davis For the STAR Collaboration.
Non-photonic electron production in STAR A. G. Knospe Yale University 9 April 2008.

Non-photonic electron production in STAR A. G. Knospe Yale University 9 April 2008.
SQM2006, 03/27/2006Haibin Zhang1 Heavy Flavor Measurements at STAR Haibin Zhang Brookhaven National Laboratory for the STAR Collaboration.

SQM2006, 03/27/2006Haibin Zhang1 Heavy Flavor Measurements at STAR Haibin Zhang Brookhaven National Laboratory for the STAR Collaboration.
Sourav Tarafdar Banaras Hindu University For the PHENIX Collaboration Hard Probes 2012 Measurement of electrons from Heavy Quarks at PHENIX.

Sourav Tarafdar Banaras Hindu University For the PHENIX Collaboration Hard Probes 2012 Measurement of electrons from Heavy Quarks at PHENIX.
1 The Study of D and B Meson Semi- leptonic Decay Contributions to the Non-photonic Electrons Xiaoyan Lin CCNU, China/UCLA for the STAR Collaboration 22.

1 The Study of D and B Meson Semi- leptonic Decay Contributions to the Non-photonic Electrons Xiaoyan Lin CCNU, China/UCLA for the STAR Collaboration 22.
Measurements of  Production and Nuclear Modification Factor at STAR Anthony Kesich University of California, Davis STAR Collaboration.

Measurements of  Production and Nuclear Modification Factor at STAR Anthony Kesich University of California, Davis STAR Collaboration.
QM’05 Budapest, HungaryHiroshi Masui (Univ. of Tsukuba) 1 Anisotropic Flow in  s NN = 200 GeV Cu+Cu and Au+Au collisions at RHIC - PHENIX Hiroshi Masui.

QM’05 Budapest, HungaryHiroshi Masui (Univ. of Tsukuba) 1 Anisotropic Flow in  s NN = 200 GeV Cu+Cu and Au+Au collisions at RHIC - PHENIX Hiroshi Masui.
Single Electron Measurements at RHIC-PHENIX T. Hachiya Hiroshima University For the PHENIX Collaboration.

Single Electron Measurements at RHIC-PHENIX T. Hachiya Hiroshima University For the PHENIX Collaboration.

Similar presentations

Ads by Google