Presentation is loading. Please wait.

Presentation is loading. Please wait.

Strange Prospects for LHC energies Hot Quarks 2006 - Sardinia - 16/05/06 1.Strangeness at LHC energies Extrapolations / Motivations 2.Strange probes with.

Published byMarshall French Modified over 8 years ago

Similar presentations

Presentation on theme: "Strange Prospects for LHC energies Hot Quarks 2006 - Sardinia - 16/05/06 1.Strangeness at LHC energies Extrapolations / Motivations 2.Strange probes with."— Presentation transcript:

1 Strange Prospects for LHC energies Hot Quarks 2006 - Sardinia - 16/05/06 1.Strangeness at LHC energies Extrapolations / Motivations 2.Strange probes with ALICE Detector and Simulations 3.First p+p Collisions and beyond First measures to target Hot Quarks 2006 Boris HIPPOLYTE for the ALICE Collaboration, IPHC Strasbourg

2 05/2006 Hot Quarks 2006 - Villasimius 2 Wroblewski factor extrapolation to LHC energies Extrapolation at the LHC A+A ~0.45 p+p ~0.25 Wroblewski factor: Using thermal model description with corresponding system formalism (canonical or grand-canonical), extrapolation is straightforward. Data compilation using Becattini et al., PR C64 (2001) 024901, hep-ph/0002267 and references therein

3 05/2006 Hot Quarks 2006 - Villasimius 3 Excitation functions of hyperons yields in A+A dN/dy extrapolations at the LHC for  :10~30 for  :3~6 for  :0.4~0.7 Expected modifications total multiplicity scaling non-equilibrium scenario

4 05/2006 Hot Quarks 2006 - Villasimius 4 Equilibrium vs non−equilibrium scenarii in A+A Eq. [ Oeschler et al., to be published ] [ Andronic et al., nucl-th/0511071 ] Non Eq. [ Rafelski et al., Eur. J. Phys. C45 (2006) 61 ] Expectations at the LHC energies (eq.): T ch ~170 MeV  B ~1 MeV Scenarii for  s Calculations from Kraus et al., (Eq.) Rafelski et al., (Non Eq.)

5 05/2006 Hot Quarks 2006 - Villasimius 5 Hadronization via coalescence at LHC energies Fries and Müller, EJP C34, S279 (2004) Calculation implies assumption on transverse radial flow extrapolation Amplitude for mixed ratio is the same at LHC than for RHIC but the limit is pushed to higher p T Probing baryon/meson differences at LHC energies implies PID over a large p T range and ALICE is perfectly designed for this. But first ALICE data will be elementary collisions  check magnitude of this behaviour then assume coalescence mechanisms if needed.

6 05/2006 Hot Quarks 2006 - Villasimius 6 The central detectors of the ALICE experiment High-Momentum Particle Identification Detector PHOton Spectrometer Time Projection Chamber Inner Tracking System Time Of Flight Transition-Radiation Detector -0.9<  < 0.9 azimuth 2  length 5 m active volume 88 m 3 -0.9<  < 0.9 azimuth 2  length 7.45 m active area 141 m 2 -0.6<  < 0.6 azimuth 57.61° active area 10 m 2 -0.9<  < 0.9 silicon layers 6 pixel/drift/strip 2/2/2 cells(M) 9.84/23/2.6 area 0.21/1.31/4.77 m 3

7 05/2006 Hot Quarks 2006 - Villasimius 7 Fiducial volume and reconstruction strategies Standard / extended fiducial volume leading to high purity / efficiency for strange particle reconstruction  Expected raw spectra extrapolated to 10 7 central events (first year Pb+Pb data).

8 05/2006 Hot Quarks 2006 - Villasimius 8 PID Range of ALICE at mid−rapidity Estimates as in the Physics Performance Report Vol.II for one year of Pb+Pb data-taking (central events) 10 7 central Pb+Pb events

9 05/2006 Hot Quarks 2006 - Villasimius 9 Baryon/Meson p T ratio in p+p @ 630 and 1800 GeV Extracting mixed ratio from UA1 spectra (1996) and from CDF spectra (2005) Ratio vs p T already surprisingly high in p+p data at high energies

10 05/2006 Hot Quarks 2006 - Villasimius 10 Extrapolations and PYTHIA: p+p @ 14 TeV LHC extrapolation: “ATLAS tuning” min. bias and underlying event Different sets of parameters (tuning) for LHC energies: a) extrapolation of Tevatron data (CDF tune A); b) data for jets and high-p T phenomena; Low p T description implies specific treatment a) O.M.I (v6.2): different pars for und. event & min. bias  first PYTHIA v6.2 description of soft domain @ LHC (different rescaling factor for und. event) b) N.M.I in PYTHIA 6.3: multiple part-part int. (+ i/fsr) simulation samples: 1M p+p events

11 05/2006 Hot Quarks 2006 - Villasimius 11 PYTHIA Baryon/Meson p T ratio: p+p @ 14 TeV Ratios and differences between min. bias and underlying event description Checking uncertainty for parameters energy dependence: PYTHIA authors’ suggestions : 2  ~0.08  0.25 Comparison between ATLAS tuning and underlying event description Little light/strange flavor dependence in this region Underlying event description needed/enough for production of hadrons in intermediate p T region ?

12 05/2006 Hot Quarks 2006 - Villasimius 12 Recent extrapolation from the Les Houches Working Group Major evolutions for LHC extrapolation: PYTHIA: v6.2  v6.3 New multiple interaction (N.M.I) treatment  part.-part. interactions and i/fsr PDF: CTEQ5  CTEQ6 main change in gluon distribution function  visible at low Q 2 preprint hep-ph/0604120 Better but still missing a factor of ~2 wrt RHIC  UA1  CDF extrapolations  investigating NLO contribution, baryon creation mechanisms (diquark, popcorn scenario, and gluonic baryon junctions).

13 05/2006 Hot Quarks 2006 - Villasimius 13 Conclusion Using strangeness as a powerfull probe at LHC energies with the PID capabilities of the ALICE experiment a) Equilibrium vs non-equilibrium scenario b) Hadronization and coalescence validity at LHC  strange particles (specific probes and PID) ! First measurements of strange particles in p+p to obtain: 1) Interesting for studying baryon production mechanisms 2) Constrains for underlying event description 3) Set references for Pb+Pb (mandatory) WARNING: minimum bias trigger for p+p !

14 05/2006 Hot Quarks 2006 - Villasimius 14 Complementary slides

15 05/2006 Hot Quarks 2006 - Villasimius 15 Hard/soft/min.bias CDF spectra: p+p @ 1800 GeV Extrapolation using CDF strange particle publication: PR D72 (2005) 052001 Main difference between preprint and final publication is a comparison with PYTHIA 6.216 After PYTHIA tuning with pions, the bottom line is min. bias  spectra is close but K0s is slightly overestimated

16 05/2006 Hot Quarks 2006 - Villasimius 16 Table of Parameters for v6.214

17 05/2006 Hot Quarks 2006 - Villasimius 17 Min. Bias CDF parameter sets: p+p @ 1800 GeV

18 05/2006 Hot Quarks 2006 - Villasimius 18 PYTHIA flavor dependence for Baryon/Meson p T ratio

19 05/2006 Hot Quarks 2006 - Villasimius 19 New multiple interaction description and underlying event tuning parameters   hard parton-parton hard scattering cross section and total rate given pQCD (validity?) divergent for p Tmin  0 p  Tmin assumed to increase with s just as total hadronic cross section: power  ≈ 0.08 New M.I: each interaction has its own set of isr and fsr and not only the hardest parton-parton interaction

20 05/2006 Hot Quarks 2006 - Villasimius 20 Table of Parameters for v6.326

21 05/2006 Hot Quarks 2006 - Villasimius 21 PDF comparison CTEQ6 vs. CTEQ5 J. Pumplin et al., preprint hep-ph/020195

22 05/2006 Hot Quarks 2006 - Villasimius 22 Extrapolations for LHC comparison: ATLAS tuning vs. Les Houches working group Min.bias tuning preprint hep-ph/0604120

Download ppt "Strange Prospects for LHC energies Hot Quarks 2006 - Sardinia - 16/05/06 1.Strangeness at LHC energies Extrapolations / Motivations 2.Strange probes with."

Similar presentations

Open heavy flavours: perspectives of ALICE for the detection of quark energy loss Rosario Turrisi Università & INFN – Padova in collaboration with F.Antinori,

Open heavy flavours: perspectives of ALICE for the detection of quark energy loss Rosario Turrisi Università & INFN – Padova in collaboration with F.Antinori,
Strangeness analysis in ALICE o genuine p+p physics o PbPb physics o analysis status, studies in PPR2 o prospects K0s and hyperons Ludovic Gaudichet, INFN.

Strangeness analysis in ALICE o genuine p+p physics o PbPb physics o analysis status, studies in PPR2 o prospects K0s and hyperons Ludovic Gaudichet, INFN.
Minimum bias and the underlying event: towards the LHC I.Dawson, C.Buttar and A.Moraes University of Sheffield Physics at LHC - Prague July 6 - 12, 2003.

Minimum bias and the underlying event: towards the LHC I.Dawson, C.Buttar and A.Moraes University of Sheffield Physics at LHC - Prague July , 2003.
Levente Molnar, INFN-Bari, KFKI-RMKIMarch, 2007, Jyväskylä1 Prospects on identified particle correlation in ALICE Levente Molnar INFN-Bari, KFKI-RMKI.

Levente Molnar, INFN-Bari, KFKI-RMKIMarch, 2007, Jyväskylä1 Prospects on identified particle correlation in ALICE Levente Molnar INFN-Bari, KFKI-RMKI.
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.
Winter Workshop on Nuclear Dynamics, 2007 1 Heavy Ion Physics with CMS: Day-One Measurements Olga Barannikova for the CMS Collaboration.

Winter Workshop on Nuclear Dynamics, Heavy Ion Physics with CMS: Day-One Measurements Olga Barannikova for the CMS Collaboration.
1 Baryonic Resonance Why resonances and why  * ? How do we search for them ? What did we learn so far? What else can we do in the.

1 Baryonic Resonance Why resonances and why  * ? How do we search for them ? What did we learn so far? What else can we do in the.
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.
STAR Patricia Fachini QM20081 ρ 0 Production at High p T in Central Au+Au and p+p collisions at  s NN = 200 GeV in STAR STAR Patricia Fachini Brookhaven.

STAR Patricia Fachini QM20081 ρ 0 Production at High p T in Central Au+Au and p+p collisions at  s NN = 200 GeV in STAR STAR Patricia Fachini Brookhaven.
STAR STRANGENESS! K0sK0s    K+K+ (Preliminary)         

STAR STRANGENESS! K0sK0s    K+K+ (Preliminary)         
Source Dynamics from Deuteron and Anti-deuteron Measurements in 200 GeV Au+Au Collisions Hugo E Valle Vanderbilt University (For the PHENIX Collaboration)

Source Dynamics from Deuteron and Anti-deuteron Measurements in 200 GeV Au+Au Collisions Hugo E Valle Vanderbilt University (For the PHENIX Collaboration)
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.
STAR Strangeness production in jets from p+p 200 GeV collisions Anthony Timmins for the STAR Collaboration  Motivation  Analysis  Results  Summary.

STAR Strangeness production in jets from p+p 200 GeV collisions Anthony Timmins for the STAR Collaboration  Motivation  Analysis  Results  Summary.
 PID spectra in STAR  Baryon/anti-baryon ratios  Mixed hadron ratios  Statistical models  Chemical fits  Quark coalescence  Sudden hadronization.

 PID spectra in STAR  Baryon/anti-baryon ratios  Mixed hadron ratios  Statistical models  Chemical fits  Quark coalescence  Sudden hadronization.
Hadronic Resonances in Heavy-Ion Collisions at ALICE A.G. Knospe for the ALICE Collaboration The University of Texas at Austin 25 July 2013.

Hadronic Resonances in Heavy-Ion Collisions at ALICE A.G. Knospe for the ALICE Collaboration The University of Texas at Austin 25 July 2013.
JSPS Research Fellow / University of Tsukuba T. Horaguchi Oct. 15 2009 for HAWAII2009 2009/10/15HAWAII 20091.

JSPS Research Fellow / University of Tsukuba T. Horaguchi Oct for HAWAII /10/15HAWAII
Sean Kelly, QWG 9/03 Prospects for Quarkonia Physics In Media at the LHC.

Sean Kelly, QWG 9/03 Prospects for Quarkonia Physics In Media at the LHC.
Jets at RHIC Jiangyong Jia

Jets at RHIC Jiangyong Jia
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.
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