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October 2006GHP 20061 The GlueX Experiment Curtis A. Meyer CH L-2.

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Presentation on theme: "October 2006GHP 20061 The GlueX Experiment Curtis A. Meyer CH L-2."— Presentation transcript:

1 October 2006GHP 20061 The GlueX Experiment Curtis A. Meyer CH L-2

2 October 2006GHP 20062 CHL-2 Upgrade magnets and power supplies JLab Upgrade

3 October 2006GHP 20063 What’s New: The CEBAF Upgrade will take advantage of recent advances in computing power, combined with a doubling of the existing energy of the electron beam, to create a 12 giga-volt electron beam capable of providing much more precise data on the structure of protons and neutrons. Specifically, the upgrade will enable scientists to address one of the great mysteries of modern physics – the mechanism that “confines” quarks together. New supercomputing studies indicate that force fields called “flux-tubes” may be responsible, and that exciting these should lead to the creation of neverbefore- seen particles. November 2003 12 GeV Upgrade CD-0 Signing at Jefferson Lab April 19, 2004 Deputy Energy Secretary Kyle McSlarrow February 2006: Project Receives CD-1 Secretary of Energy Announces Approval and Funding for Facilities Upgrade at the Thomas Jefferson National Lab and Highlights Lab’s Successful Education Programs

4 October 2006GHP 20064 The GlueX Collaboration The search for gluonic excitations Approximately 70 Collaborators Members from seven countries Active collaboration since 1998 New Members are very welcome http://www.gluex.org/

5 October 2006GHP 20065 1.0 1.5 2.0 2.5 qq Mesons L = 01234 Each box corresponds to 4 nonets (2 for L=0) Radial excitations (L = qq angular momentum) exotic nonets 0 – + 0 + – 1 + + 1 + – 1 – + 1 – – 2 – + 2 + – 2 + + 0 – + 2 – + 0 + + Glueballs Hybrids Lattice 1 -+ 1.9 GeV Spectrum 0 ++ 1.6 GeV

6 October 2006GHP 20066 Flux Tubes

7 October 2006GHP 20067 m=0 CP=(-1) S+1 m=1 CP=(-1) S Flux-tube Model ground-state flux-tube m=0 excited flux-tube m=1 built on quark-model mesons CP={(-1) L+S }{(-1) L+1 } ={(-1) S+1 } S=0,L=0,m=1 J=1 CP=+ J PC =1 ++,1 -- (not exotic) S=1,L=0,m=1 J=1 CP=- J PC =0 -+,0 +- 1 -+,1 +- 2 -+,2 +- exotic normal mesons 1 -+ or 1 +- Hybrid Mesons ,,

8 October 2006GHP 20068 Hybrid Predictions Flux-tube model: 8 degenerate nonets 1 ++,1 -- 0 -+,0 +-,1 -+,1 +-,2 -+,2 +- ~1.9 GeV/c 2 Lattice calculations --- 1 -+ nonet is the lightest UKQCD (97) 1.87  0.20 MILC (97) 1.97  0.30 MILC (99) 2.11  0.10 Lacock(99) 1.90  0.20 Mei(02) 2.01  0.10 Bernard(04) 1.792 § 0.139 In the charmonium sector: 1 -+ 4.39  0.08 0 +- 4.61  0.11 Splitting = 0.20 1 -+ 1.9 § 0.2 2 +- 2.0 § 0.11 0 +- 2.3 § 0.6 S=0 S=1

9 October 2006GHP 20069 E852 (BNL): Exotic reported at a mass of 1.6 GeV A new analysis with 10 times the statistics in two  final states. What are the waves that are needed? E852 J PC = 1 -+  - p ! n  +  -  -

10 October 2006GHP 200610 Exotic Signals  1 (1400) Width ~ 0.3 GeV, Decays: only  weak signal in  p production (scattering??) strong signal in antiproton-deuterium.  1 (1600) Width ~ 0.16 GeV, Decays ,  ’ ,(b 1  ) Only seen in  p production, (E852 + VES)  1 I G (J PC )=1 - (1 -+ )  ’ 1 I G (J PC )=0 + (1 -+ )  1 I G (J PC )=0 + (1 -+ ) K 1 I G (J PC )= ½ (1 - )  1 (2000) Weak evidence in preferred hybrid modes f 1  and b 1  NOT A HYBRID What is really here? The right place. Needs confirmation.

11 October 2006GHP 200611 Photoproduction More likely to find exotic hybrid mesons using beams of photons

12 October 2006GHP 200612 The angular momentum in the flux tube stays in one of the daughter mesons (L=1) and (L=0) meson.  1   b 1,  f 1, ,  a 1 1:.25:.25:.20  1  (1300) , a 1   b 2  a 1 , h 1 ,  a 2  h 2  b 1 ,  b 0   (1300) , h 1  h 0  b 1 , h 1  L flux Exotic Quantum Number Hybrids Mass and model dependent predictions Hybrid Decays

13 October 2006GHP 200613Exotics NN  e X  , ,   1 I G (J PC )=1 - (1 -+ )  ’ 1 I G (J PC )=0 + (1 -+ )  1 I G (J PC )=0 + (1 -+ ) K 1 I G (J PC )= ½ (1 - ) 1 -+ nonet in Photoproduction Need to establish nonet nature of exotics:    0 Need to establish more than one nonet: 0 +- 1 -+ 2 +-

14 October 2006GHP 200614 0 +- and 2 +- Exotics NN  e X b 0 I G (J PC )=1 + (0 +- ) h 0 I G (J PC )=0 - (0 +- ) h’ 0 I G (J PC )=0 - (0 +- ) K 0 I(J P )=½(0 + ) b 2 I G (J PC )=1 + (2 +- ) h 2 I G (J PC )=0 - (2 +- ) h’ 2 I G (J PC )=0 - (2 +- ) K 2 I(J P )= ½(2 + ) a1,f0,f1a1,f0,f1 f0,f1,a1f0,f1,a1 f0,f1,a1f0,f1,a1 ,  a 1,  f 0,  f 1  f 0,  f 1,  a 1  f 0,  f 1,  a 1 In photoproduction, couple to ,  or  ? “Similar to  1 ” Kaons do not have exotic QN’s

15 October 2006GHP 200615 In order to establish the existence of gluonic excitations, We need to establish the nonet nature of the 1 -+ state. We need to establish other exotic QN nonets – the 0 +- and 2 +-. In the scalar glueball sector, the decay patterns have provided the most sensitive information. I expect the same will be true in the hybrid sector as well. DECAY PATTERNS ARE CRUCIAL Exotics and QCD

16 October 2006GHP 200616 The GlueX Experiment

17 October 2006GHP 200617 Optimized for PWA Nearly 4  acceptance for neutral and charged particles. Linearly polarized photons with energy optimized for hybrid searches. Uniform acceptance in the variables appropriate for Partial Wave Analysis. PWA Leakage studies have been performed using Monte Carlo.

18 October 2006GHP 200618 Gottfried-Jackson frame: In the rest frame of X the decay angles are theta, phi Mass [X] = 1.4 GeV Mass [X] = 1.7 GeV Mass [X] = 2.0 GeV Acceptance  p !  +  +  - n

19 October 2006GHP 200619 Partial Wave Analysis  p !  1 + n !  +  +  - n !  +  0  0 n  p n    X  m  [GeV/c 2 ]  GJ a2a2    Double blind studies of 3  final states Polarization GlueX Monte Carlo

20 October 2006GHP 200620 neutral charged Leakage If your acceptance is not well understood, The PWA can “leak” one wave into another. Break the GlueX detector in Monte Carlo: distort B-field degrade resolution change hole sizes distort beam energy Largest leakage is ~ 1/2% of a strong signal. a 1 (1 ++ ) $  1 (1 -+ )

21 October 2006GHP 200621 Partial Wave Analysis Have been able to pull out signals that are ~1% of a strong signal using PWA. It is extremely difficult to produce leakage that is as large as 1%. Assuming a good theoretical understanding, if hybrids are present at ~1% of normal mesons strength, this detector will be able to find them. Studies are currently being redone with detector software.

22 October 2006GHP 200622 Solenoid Refurbishment LASS Solenoid Superconducting 2.5T Used in Los Alamos MEGA Experiment. Moved to IUCF for refurbishing, which is nearly done. Single coil test planned

23 October 2006GHP 200623 Detector R&D Work Drift Chambers

24 October 2006GHP 200624 Calorimeters Barrel Calorimeter Pb-SciFib Existing Pb-Glass for Forward Backwards Veto Beam tests just finished

25 October 2006GHP 200625 Electronics The F1TDC Flash ADC System

26 October 2006GHP 200626 Detector Reviews July 2003: Held a 2-day review of GlueX Electronics October 2004: Held a 2-day review of the GlueX Detector. November 2004: Solenoid Assessment January 2006: Tagger Review Spring 2007: Drift Chamber Review

27 October 2006GHP 200627 Analysis Preparation From the very start, the GlueX Collaboration has had an active theory group. It is well recognized that theorists need to be closely integrated into the analysis from the start. The scale of data from GlueX will be comparable to LHC experiments. However, the needs are different – GRID technologies will be crucial. Also, the tools to parallelize the analysis of 100,000,000 event data sets are being developed. The theoretical underpinnings of Partial Wave Analysis need to Be looked at closely now that large data sets are becoming available. What exactly are the model assumptions and how do they affect The results.

28 October 2006GHP 200628Summary The GlueX Collaboration is moving forward! The DOE 20-year plan and CD0 have opened the door to a great deal of interest by new groups in GlueX. The Collaboration is pressing forward with detector R&D coupled with external reviews of what we are doing. The Collaboration is working hard to make sure that analysis issues due to the large data sets are in hand. We are paying close attention to the theoretical underpinnings of PWA to make sure that what comes out of GlueX is a clear answer. New collaborators are welcome! http://www.gluex.org

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