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Current Status of Hadron Analysis Introduction Hadron PID by PHENIX-TOF  Current status of charged hadron PID  CGL and track projection point on TOF.

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Presentation on theme: "Current Status of Hadron Analysis Introduction Hadron PID by PHENIX-TOF  Current status of charged hadron PID  CGL and track projection point on TOF."— Presentation transcript:

1 Current Status of Hadron Analysis Introduction Hadron PID by PHENIX-TOF  Current status of charged hadron PID  CGL and track projection point on TOF Single Particle Spectra for , K, p and pbar  p T & M T distributions  Centrality dependence Invariant mass study Analysis Plan for QM’01 BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Tatsuya Chujo (BNL)

2 Introduction During Run2000, we recorded ~3M “good” event (BBC,ZDC, BBC&ZDC trigger) in tapes. Many useful magnetic field ON data (run9666~ ) TOF system was operated successfully during almost all data taking. Lots of hadron physics using TOF for Run00 data set In this presentation, the current status of PID/hadron by TOF and plan for QM’01 are reported. BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 1.Charged hadron PID by TOF 2.Single particle spectra for ,K,p and anti-proton (centrality dependence of inverse slope) 3. First look at invariant mass spectrum of K + K -

3 PID by TOF BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Mass squared distribution phs6: fixed momentum scale, rough TOF calibration parameters are used. No decay, absorption correction + + -- K+K+ K-K- pp Demonstrated clear PID by TOF In phs5 tag, K/  separation < 2 GeV/c, p/K separation ~ 3.5 GeV/c in p T New TOF calibration parameters are valid after phs7 tag. Corrected BBC timing conversion factor Rough TOF calibration

4 Global Tracking Algorism (CGL) for field ON data (1) Staring from Dch track model as PHTrack. (momentum, Dch quality bit …) (2) Make table of “hit list” for all subsystem in central arm. (Dch, PC1, PC3, TEC, TOF, EMC) (3) Call association module with finite association window in z and r  (current window size : 20cm). (4) Execute association in each detector using nearest hit point and write projection point of track on detector. Track projection cut is very important for selection of “good track” and for PID by TOF. BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000

5 Residual between Track Projection Point and TOF Hit TOF PC3 dy dz For PID, 2  cut is applied in both y and z direction (TOF).

6 Momentum dependence of dy and dz BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 dy dz Low momentum (0.2 < pt < 0.3 GeV/c) High momentum (1.0 < pt < 1.5 GeV/c)  =3.5 cm  =8.4 cm  =7.7 cm  =3.8 cm Width of residual in both y and z are narrower at high pt. Needed to optimize residual cut as a function of momentum.  y [cm]  z [cm]

7 Squared Mass Width BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000  m2 [(GeV/c 2 ) 2 ] Momentum resolution ~1% @ 0.5 GeV/c ? Found difficulty for parameterization by above formula.

8 Event Selection BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 [cm] In this analysis,centrality is defined by PC1 multiplicity. BBC Zvertex range : <  20 cm tag version: phs5+projection, processed at RIKEN CC-J Sampling 200K event for this analysis. peripheral central BBC Zvertex

9 Cut Criteria BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Energy loss cut (TOF scintillator) PID cut in mass squared v.s. momentum dy and dz cut PID Cut ; m 2 vs. p (line cut)  : -0.2 < m 2 < 0.15 GeV/c 2, 0.1 < p < 2.0 GeV/c K : 0.15 < m 2 < 0.4 GeV/c 2, 0.2 < p < 2.0 GeV/c p/pbar :0.5 < m 2 < 1.2 GeV/c 2, 0.2 < p < 4.0 GeV/c

10 Uncorrected Single Particle Spectra BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Minimum bias * Same plot, shown @ DNP 00

11 Decay Correction BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Expected survival rate Applied to  and K spectra. Should be confirmed by MC.

12 Centrality Dependence of Single Particle Spectra (IV) most central (II) (I) peripheral (III) Inclusive M T spectra for protons Fitting function For p T spectrum For m T spectrum m T and p T spectra for , K, p and pbar Centrality dependence of inverse slope Decay correction for , K No efficiency correction X10 -1 X10 -2 X10 -3 X10 -4 BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000

13 Centrality Dependence of M T Spectra (shape) BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 + + -- K+K+ K-K- p p

14 Centrality Dependence of p T Spectra (shape) BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 + + K+K+ p -- K-K- p

15 Inverse Slope Parameters BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 + +  -- K+K+ K-K- p pbar Inclusive (I) (II) (III) (IV) peripheral central Inclusive (I) (II) (III) (IV) peripheral central Mass dependence of slope : T  <T K <T p Systematic difference between +/- : T + < T - (because momentum scale is wrong in phs5 tag?) Less centrality dependence for p,K, but p/pbar have a gap between (I) and (II).

16 Negative Hadrons and  0 Spectra For negative particles: Negative hadrons –No PIDed by TOF, used Dch only. Compare inverse slope with  0 –as measured with the PHENIX electromagnetic calorimeter BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 By Jane @DNP00

17 Tracking Efficiency Estimation from Real Data by Y.Akiba BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 West ArmEAST Arm No plateau in East arm  East = 0.5 Not good way for East arm correction

18 Tracking Efficiency Estimation by MC BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 Dch evaluation software was updated (including TOF part). Used same tracking algorism as real data for MC. MC, Reconstructed info, and track projection points are stored. Used Dch dead channel map for reconstruction. Could estimate acceptance with efficiency. Now, we started efficiency study by this evaluator. Used single track events, HIJING central event etc...

19 First look at  K + K - K + K - invariant mass BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000 phs5+projection tag used (momentum scaling is wrong!) Applied same PID cut as single particle study No event class selection Event mixing with same event class selection Simulation work for acceptance and efficiency study QM’01 DSTs are expected to have good enough statistics with less software “bug”. Stay turned! Identified Hadron’s HBT * Started to look at it by A. Enokizono (Hiroshima Univ.), but an excess at low Q inv is not observed so far. * Stay turned too! Invariant mass [GeV/c 2 ]

20 Analysis Plan for QM’01 Official DST production started, 12/1 at RCF. Analysis Track Ntuple will be produced at the same time (not collaboration wide use). Analysis frame work for hadron analysis is nearly completed. Track Ntuple (1% file size of DST) root[1] MakeClass : Fast scanning of Ntuple, fast plot making by this method. (few min. to make a plot from all data of Run00!) Lots of simulation work at RIKEN CC-J are on going using evaluation module. Corrected single particle spectra, particle ratios and their centrality dependence will be reported shortly and finalized for QM ’01 presentation. BNL/ Tatsuya CHUJO @ Tsukuba-Yonsei Workshop Univ. of Tsukuba, 12/4/2000

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