Presentation is loading. Please wait.

Presentation is loading. Please wait.

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.

Published byDerrick Lewis Modified over 8 years ago

Similar presentations

Presentation on theme: "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."— Presentation transcript:

1 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 Motivation Current Models Identified Particle Spectra B/B and B/M ratios Strange Particle Correlations

2 13/01/04Matthew A. C. Lamont - QM20042 Motivation : Particle production vs p T pTpT pQCD Hydro 2-3 GeV/c6-7 GeV/c ? Soft Fragmentation and quenching of jets 0 What do we think we know ? p T independence of p/p ratio. p/  ratio increases with p T to ~ 1 at p T ~ 3-4 GeV/c in central collisions. Suppression factors of p,  different to that of , K 0 s in the intermediate p T region. What has the data already shown us at intermediate p T ? What are the mechanism(s) at intermediate p T ?

3 13/01/04Matthew A. C. Lamont - QM20043 Current theoretical models Soft + Quench Model –Two component model, soft production (hydro) at low p T, quenching of pQCD jets via gluon radiation at higher p T. Baryon junctions incorporated to explain large baryon yield at intermediate p T. Recombination –Model assumes the recombination of two and three low p T partons to form hadrons from an exponential parton p T spectrum. High p T spectrum described by fragmentation once parton p T spectrum can be described by a power law. Requires a high phase space density of partons for method to work. Coalescence –Same as the recombination picture with the added assumption that thermal ‘QGP’ partons can coalesce with co-moving ‘pQCD’ partons from a mini-jet. M. Gyulassy et. al., Phys. Rev. Lett. 86 (2001) 2537 R. J. Fries et. al., Phys. Rev. C 68 (2003) 044902 V. Greco et. al., Phys. Rev. C 68 (2003) 034904

4 13/01/04Matthew A. C. Lamont - QM20044 Identified particle spectra : p, p, K -,+,  -,+, K 0 s and 

5 13/01/04Matthew A. C. Lamont - QM20045 B/B ratios vs Transverse Momentum (p T ) Soft+Quench (130 GeV) : Nucl. Phys. A715 779-782 (2003) Recombination (200 GeV) : Phys. Rev. C68 044902 (2003) Note the different trend in the p/p ratio from that reported in Nantes. Experimental effects have been better modelled (mainly space charge distortions). This pQCD calculation fails : uncertainties in PDFs and fragmentation functions ? Both the ‘Soft+Quench’ and recombination model predictions are consistent with the data.

6 13/01/04Matthew A. C. Lamont - QM20046 Hydro: Phys. Rev. C67, 044903 (2003) S+Q: 200 GeV data - private communication S+Q: 130 GeV data - Phys. Rev. C65, 041902 p/   ratios, data and theory Note that p data is not corrected for feed-down from weak decays  p/  ratio will decrease. Reco : Phys. Rev. C68 044902 (2003) Coal : Phys. Rev. C68 034904 (2003) S+Q : magnitude  low p T  Hydro : magnitude  low p T  Reco : magnitude   low p T  Coal : magnitude  low p T 

7 13/01/04Matthew A. C. Lamont - QM20047  /K 0 s ratios vs collision centrality  /K 0 s ratio increases with increasing centrality –peaks in the intermediate p T region. –turns over and appears to tend to the same value for all centralities for p T ~ 5-6 GeV/c. –Therefore p T range of baryon excess is limited to < 5-6 GeV/c. –Not yet down to level in pp data  not corrected for feed-down from weak decays - estimated to be a 10% effect and ~ independent of p T. For p+p data, refer to poster by M. Heinz and J. Adams

8 13/01/04Matthew A. C. Lamont - QM20048  /K 0 s - comparison with models S+Q : 200 GeV data - private communication S+Q : 130 GeV data - Phys. Rev. C65, 041902 Reco : Phys. Rev. C68 044902 (2003) Coal : Phys. Rev. C68 034904 (2003) Reco : magnitude  turnover  low p T  Coal : magnitude  turnover  low p T  S+Q : magnitude  turnover  centrality  Require centrality dependent prediction from Recombination and Coalescence models.

9 13/01/04Matthew A. C. Lamont - QM20049 Another view of the same effect? …. R cp Suppression of mesons different to baryons - not mass dependent effect. R cp of baryons and mesons separate at p T ~ 2 GeV/c and come together at p T ~ 5-6 GeV/c. See poster by P. Sorensen

10 13/01/04Matthew A. C. Lamont - QM200410 Q) Can we measure particle correlations with identified particles ? A) Yes - though measurements are limited by statistics. ∆  (radians) dashed line is random background 1/N Trigger dN/d () Identified Particle Correlations We have seen previously the disappearance of back-to-back jet correlations in central Au+Au, with charged particles. 1/N Trigger dN/d () Same Side Back side ∆  (radians) See poster by Y. Guo (trigger p T > 2.5 GeV/, associated p T > 2.5 GeV/c & less than trigger p T ) Back to back jet disappearance for charged trigger particles (Phys. Rev. Lett. 91 072304 (2003)) Measuring correlations with identified particles could give us insight on possible different production mechanisms for baryons and mesons. Correlation appears stronger for  compared to , though in both cases, there is an absence of a ‘back-to-back’ partner correlation. trig: , assoc : charged hadron

11 13/01/04Matthew A. C. Lamont - QM200411 Back side dash lines indicate estimated flow contribution Trigger P T Quantifying the Correlation Strength Correlation difference defined as : N same - N back See poster by Y. Guo Trigger P T Same side Trigger P T N same - N back trig: , assoc : charged hadron Suppression of  as a function of p T is slightly different from the , K 0 s and primaries. Under investigation whether this is an experimental effect or whether there is indeed sensitivity to quenching or production mechanism effects N same - N back Trigger P T trig: , assoc : charged hadron trig and assoc : charged hadron trig: K 0 s, assoc : charged hadron

12 13/01/04Matthew A. C. Lamont - QM200412 Summary B/B ratios are independent of p T. –pQCD calculation fails : uncertainties in PDFs and fragmentation functions ? p/   ratio increases with p T up to 3 GeV/c.  /K 0 s ratio increases smoothly with centrality, turns over at p T ~ 3 GeV/c. –baryon excess over mesons is limited in p T to < 5-6 GeV/c. –A+A value still above p+p value. The R cp measurement exhibits differences between baryons and mesons - not just a mass effect. Strange correlations hint at a flavour dependence. –correlations with  triggers possibly enhanced over those with  and K 0 s triggers.

13 13/01/04Matthew A. C. Lamont - QM200413 Backup Slides

14 13/01/04Matthew A. C. Lamont - QM200414 STAR pp vs UA1 pp Ratio very different in two systems Different production mechanisms or just differences in experiments ? STARUA1 Ratio Plotted  /K 0 s  +  /2K 0 s Colliding System p+p Energy 200 GeV630 GeV Coverage |y| < 1 |  | < 2.5

15 13/01/04Matthew A. C. Lamont - QM200415 STAR RICH Geometry |  |<0.3 and   ~235cm 1)Charged particle through radiator 2)MIP and photons detection

16 13/01/04Matthew A. C. Lamont - QM200416 Integral method and Fitting Cherenkov angle distribution in momentum bins pions kaons protons

17 13/01/04Matthew A. C. Lamont - QM200417 Comparison of Spectra with PHENIX

18 13/01/04Matthew A. C. Lamont - QM200418 Current theoretical models Coalescence –Same as the recombination picture with the added assumption that thermal ‘QGP’ partons can coalesce with co-moving ‘pQCD’ partons from a mini-jet. M. Gyulassy et. al., Phys. Rev. Lett. 86 (2001) 2537R. J. Fries et. al., Phys. Rev. C 68 (2003) 044902 V. Greco et. al., Phys. Rev. C 68 (2003) 034904 Recombination –Recombination of two and three low p T partons form hadrons from an exponential parton p T spectrum. High p T spectrum described by fragmentation due to power-law parton p T spectrum. Requires a high phase space density of partons for method to work. Soft + Quench Model –Two component model, soft production (hydro) at low p T, quenching of pQCD jets via gluon radiation at higher p T. Baryon junctions incorporated to explain large baryon yield at intermediate p T.

Download ppt "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."

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.
TJH: ISMD 2005, 8/9-15 Kromeriz, Czech Republic TJH: 1 Experimental Results at RHIC T. Hallman Brookhaven National Laboratory ISMD Kromeriz, Czech Republic.

TJH: ISMD 2005, 8/9-15 Kromeriz, Czech Republic TJH: 1 Experimental Results at RHIC T. Hallman Brookhaven National Laboratory ISMD Kromeriz, Czech Republic.
Pawan Kumar NetrakantiPANIC-2005, Santa Fe1 Pion, proton and anti-proton transverse momentum spectra in p+p and d+Au collisions at  s NN = 200 GeV Outline:

Pawan Kumar NetrakantiPANIC-2005, Santa Fe1 Pion, proton and anti-proton transverse momentum spectra in p+p and d+Au collisions at  s NN = 200 GeV Outline:
Photon-Hadron Correlations at RHIC Saskia Mioduszewski Texas A&M University E-M Workshop of RHIC/AGS Users’ Meeting 27 May, 2008.

Photon-Hadron Correlations at RHIC Saskia Mioduszewski Texas A&M University E-M Workshop of RHIC/AGS Users’ Meeting 27 May, 2008.
Quark Matter 2006 (2006.11.18) Excitation functions of baryon anomaly and freeze-out properties at RHIC-PHENIX Tatsuya Chujo (University of Tsukuba) for.

Quark Matter 2006 ( ) Excitation functions of baryon anomaly and freeze-out properties at RHIC-PHENIX Tatsuya Chujo (University of Tsukuba) for.
K*(892) Resonance Production in Au+Au and Cu+Cu Collisions at  s NN = 200 GeV & 62.4 GeV Motivation Analysis and Results Summary 1 Sadhana Dash Institute.

K*(892) Resonance Production in Au+Au and Cu+Cu Collisions at  s NN = 200 GeV & 62.4 GeV Motivation Analysis and Results Summary 1 Sadhana Dash Institute.
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.
Particle Production in p + p Reactions at GeV K. Hagel Cyclotron Institute Texas A & M University for the BRAHMS Collaboration.

Particle Production in p + p Reactions at GeV K. Hagel Cyclotron Institute Texas A & M University for the BRAHMS Collaboration.
High-p T spectra and correlations from Cu+Cu and Au+Au collisions in STAR Marco van Leeuwen, LBNL for the STAR collaboration.

High-p T spectra and correlations from Cu+Cu and Au+Au collisions in STAR Marco van Leeuwen, LBNL for the STAR collaboration.
Ali Hanks - APS 2008 1 Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.

Ali Hanks - APS Direct measurement of fragmentation photons in p+p collisions at √s = 200GeV with the PHENIX experiment Ali Hanks for the PHENIX.
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.
We distinguish two hadronization mechanisms:  Fragmentation Fragmentation builds on the idea of a single quark in the vacuum, it doesn’t consider many.

We distinguish two hadronization mechanisms:  Fragmentation Fragmentation builds on the idea of a single quark in the vacuum, it doesn’t consider many.
Understanding Jet Energy Loss with Angular Correlation Studies in PHENIX Ali Hanks for the PHENIX Collaboration 24 th Winter Workshop on Nuclear Dynamics.

Understanding Jet Energy Loss with Angular Correlation Studies in PHENIX Ali Hanks for the PHENIX Collaboration 24 th Winter Workshop on Nuclear Dynamics.
Direct photons and Jet correlation in HI. Integrated I AA (0.4

Direct photons and Jet correlation in HI. Integrated I AA (0.4
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.
STAR 1 Strange Particle Ratios on the Near- & Away-Side of Jets at RHIC Jiaxu Zuo BNL/SINAP with Paul Sorensen BNL For STAR Collaboration 23rd Winter Workshop.

STAR 1 Strange Particle Ratios on the Near- & Away-Side of Jets at RHIC Jiaxu Zuo BNL/SINAP with Paul Sorensen BNL For STAR Collaboration 23rd Winter Workshop.
Understanding Jet Energy Loss with Angular Correlation Studies in PHENIX Ali Hanks for the PHENIX Collaboration 24 th Winter Workshop on Nuclear Dynamics.

Understanding Jet Energy Loss with Angular Correlation Studies in PHENIX Ali Hanks for the PHENIX Collaboration 24 th Winter Workshop on Nuclear Dynamics.
Hard Probes at RHIC Saskia Mioduszewski Texas A&M University Winter Workshop on Nuclear Dynamics 8 April, 2008.

Hard Probes at RHIC Saskia Mioduszewski Texas A&M University Winter Workshop on Nuclear Dynamics 8 April, 2008.
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.
5-12 April 2008 Winter Workshop on Nuclear Dynamics STAR Particle production at RHIC Aneta Iordanova for the STAR collaboration.

5-12 April 2008 Winter Workshop on Nuclear Dynamics STAR Particle production at RHIC Aneta Iordanova for the STAR collaboration.

Similar presentations

Ads by Google