P-25 RHIC-SPIN research program

1. P-25 RHIC-SPIN research program • RHIC Physics • Quark-Gluon Plasma (HI), Mike’s talk • Nucleon Spin Structure (RHIC-SPIN) • History of PHENIX-SPIN(20%) • RHIC-SPIN physics and LANL (50%) • shift focus from construction to physics analysis • Physics Interest • Current activity (30%) • Hardware and Software • Physics Analyses

2. 2 concentric rings of superconducting magnets 3.8 km circumference counter-rotating beams of ions from p to Au RHIC @ Brookhaven National Laboratory BRAHMS PHOBOS Relativistic Heavy Ion Collider PHENIX STAR h Long Island

3. The ExperimentPHENIX=Pioneering High Energy Nuclear Interaction eXperiment • Polarized Protons at RHIC • E_cm=50 - 500 GeV • P=70% • L=2x10^32 cm^-2sec^-1 • Particle Detectors • PHENIX etc • Physics Studies • Nucleon Spin Structures • P,CP Violations • New Physics

4. Central Arms EMCal Tracking PID photons,electrons hadrons PID Muon Arms tracking + ID LANL Group Muon Arms MVD SVX upgrade PHENIX Detectors

5. PHENIX in Today

6. In the early days … • Not a story of “in the good old days ….” • 9 or so proposals altogether in 1991, among them TALES, SPARC, OASIS and DIMUON were forced to merge. • STAR was pre-selected! • PHENIX vs STAR • Combination of several proposals • Funding problems, de-scoped, only one muon arm • A hard time to bring all subsystem together • Could fall into crapes

9. Artist’s View of PHENIXa little bit of history about Muon Arms in PHENIX (thanks Hubert)

10. LANL made the difference • Brought in Japanese/RIKEN $$ to RHIC/PHENIX-Spin - Joel Moss, Masayasu Ishihara(RIKEN) et al • PHENIX Spin program STAR WAR?

11. BNL-RIKEN Agreement • Signing of the BNL-RIKEN Agreement on Spin Physics, September 25, 1995 at BNL • With $20M From Japanese Lab, RHIC Ventures Into Spin Physics • Half of the money that RIKEN brings to the collaboration will be used to build and install the Siberian snakes, spin rotators and other hardware needed to collide spin-polarized protons in RHIC. • The other $10 million will buy an additional detector system for PHENIX, one of the two large detectors now under construction for RHIC, which will allow this experiment to do spin physics.

12. Origins of the Los Alamos Involvement in the PHENIX detector Program (from JJM, DOE/NP Review, 96) • Circa 1990: two groups with interest in RHIC – Fermilab E722/E789 and CERN NA44 • [SPIN Puzzle ~1988, EMC] • Spring 1990: Decision made that P-Division would enter the RHIC program in a major way and focus its efforts on one experiment. Major players - Barbra Jacak, Mike Leitch, Pat McGaughey, Joel Moss. High Q^2 physics • 1991-1993: PHENIX collaboration evolves. • Keep P-Division Physics agenda part of the detector: major roles played by Barbra Jacak and Pat McGaughey. • Save muon arms from total oblivision: major role played by Pat McGaughey (acting DC head) • MVD becomes LANL responsibility (Barbra Jacak, DC head) • 1993-95: Los Alamos collaboration on spin physics at RHIC. Secured instrumentation for the north muon arm and added new (south) muon system. Major role played by Wayne Kinnison, John McClelland and Joel Moss. NOTE: Without Los Alamos efforts there would be NO muon subsystem in PHENIX and probably no phenix-spin program

13. PHENIX-Spin collaboration Spokesmen: Ken Imai, Kyoto/RIKEN Joel Moss, LANL

14. Physics @LANL • Nucleon structure • Understanding the structure of nucleon in terms of quark and gluon constituents of QCD is one the outstanding fundamental questions in physics. • LANL experience, expertise & interests • E772/789/886: dimuons • sea quark flavor asymmetry • Gluon shadowing • Spin structure function • QCD dynamics • New physics • DY,J/Psi, heavy quarks etc

15. LANL Effort in PHENIX • Contributed 3 major subsystems • Muon arms: simply the largest • MVD: the smallest in size but the largest in channel numbers • Muon software • On-line • Off-line • First Year Muon Physics • J/Psi from p+p and Au+Au (QM2002) • Heavy quark physics w/ single and dimuons, in progress • MVD and SVX upgrade for PHENIX • Mike and Gerd’s talks

16. PHENIX Muon Arms • Muon Arms • Tracking+MuID • 1.2 < || < 2.4 • =2 • p  2GeV/c • Drell-Yan • Heavy Quarks • W,Z • Critical for Spin Physics

17. Muon Arms • How Muon Chamber works

18. Muon Arms • Physics Simulations: •  mass resolution 80 MeV/c2 • J/ mass resolution 110 MeV/c2 •  mass resolution 200 MeV/c2 • W/Z decays dp/p~15% • Δp/p~3% (@3~10GeV/c) • Critical for Spin Physics • Mass Resolutions for VM: Resolve  (1.02 GeV) from  (0.77 GeV) + (0.78 GeV) and optimize signal to background. Resolve J/(3.097 GeV) from ' (3.686 GeV) and optimize signal to background. Resolve (1S) (9.46 GeV) from (2S+3S) (10.02 + 10.36 GeV) over all rapidity (including central rapidity).

19. Clean Room Test Area Muon Factory

20. PHENIX South Muon-Spectrometer • Three very large detector stations in 8 octants with 20,000 anode wires and 22,000 cathode strips • low noise electronics • 8 meters high and weighs around 300 tons • over 10 miles of cables

22. J/Psi from the First Year

23. RHIC-Spin Physics New Frontier of Nucleon Structure Research • Proton Structure and Spin Puzzle • Proton Spin Decomposition • Origin of Proton Spin: gluon, sea quarks ? • A new tool to study QCD • Test of Fundamental Symmetries • Parity & CP Violations • New Physics - Naïve expectation  = 1 Experimentally - RHIC: large Q^2 - JLab: small Q^2

24. Experimental Approach • Proton spin decomposition • Burning questions • Gluon Polarization? • Sea-quark polarization? • Flavor dependence? Heavy Quark productions W productions

25. Gluon Polarization – the 1st thing we want to look at • Proton Spin Puzzle and G • Asymptotic limit • Experimental approach: • heavy quarks (LANL) • jet+direct photon • high Pt hadrons, QCD evolution, etc. Experimentally(indirect) HERMES’99 Gluons may play a significant role !

26. pQCD and Factorization Model • Measures of Asymmetry • Polarized PDF

27. Polarized Interactions • Measures of Asymmetry

28. Heavy Quark Production and G • Gluon-Gluon scattering • dominant process at 200 GeV

29. +  W+ - s  W- b c Heavy Quarks in PHENIX • Open Charm/Bottom • high Pt single leptons • work in progress • lepton charge correlation • displaced vtx (upgrade) lepton Pt_jet J. Moss, M.Brooks, `97 Jet VTX b _ b IP SVX Upgrade

30. 1.5 2 5 Heavy Quark Production and G • Single Lepton Asymmetry 32pb-1

31. Heavy Quarks in PHENIX • Quarkonia • J/(1S), (2S) • (1S), (2S) • x1,x2 • di-lepton

32. + J/ * - Measurement of J/ Polarization- study QCD spin & fragmentation dynamics - a new QGP probe? α= +1: transversely polarized α= -1: longitudinally polarized α= 0: no polarization CDF SVX Upgrade is important !

33. Polarized PDF u d s A Model

35. Flavor Asymmetry & Sea Quark Polarization Sea quarks are NOT flavor symmetric Pion cloud modle Chiral model E866

36. Quarks and Anti-Quarks Polarization • Limits of DIS • Asymmetry in W productions • (V-A) coupling in W productions • Quark flavor selection

37. Quark and Anti-Quark Polarization

38. Quarks and Anti-Quarks Polarization

39. _ d +  u Searching for New Physics • Why Parity Violation? • - unexplored at high energy • - Z-pole @SLAC, CERN • Rb, Ab etc • - sensitive to new physics • many models of • NEW PHYSICS • predict PV,CPV • AL in contact interaction • - Jet + X • - high Pt muon + X • - Drell-Yan • Low Energy:

40. Required Luminosity for Discovery on Drell-Yan Searching for New PhysicsDiscovery opportunity in Drell-Yan channel

41. Searching for New Physics • Drell-Yan process • Z’, SUSY etc • Better sensitivity excess

42. Summary • Unique Opportunity • Discovery Potentials • study PV, CPV etc. • New Physics @RHIC • P-25/T8 joint effort • LANL advantage • Experience & expertise • P/T collaboration • Shift to PHYSICS Study

43. Backup slides

44. Run 2 Spin Summary • Luminosity • 0.15pb^-1 • Polarization • 25% • L_eff = p^2*L = 6nb^-1 • Physics • Transverse Spin A_N • pi(0,+,-), photon • forward muons • forward particles • Single Spin Asymmetry 25% 25% 70%

46. Asymmetries from Y1

47. LANL activities • Muon arm construction • South arm: 2001 • North arm: 2002 • Show some pictures • Mechanical – Dave Lee, Walt, Melynda, Rusty • Electroincs – Dick, Melynda, Mike, Pat, Ming • Software – Melynda, Pat, Mike, Ming • First year physics • J/Psi from pp and AuAu • Single and dimuons from heavy quark decay • Forward polarimeter • MVD – Mike’s talk • Provides vtx for muon reconstruction

48. PHENIX Today

49. History & Current activities • Los Alamos and PHENIX/RHIC-SPIN • Muon arms & MVD • SVX upgrade • HI physics – Mike’s talk • Spin - focus • J/Psi, DY, heavy quark and W/Z physics with muons • Gluon polarization • Sea quark polarization (E866 – unpolarized sea quark) • This is the time to shift from construction to physics study; • our 10 years construction effort should be paid off with strong physics results

50. History of PHENIX and LANL involvement • Why do I want to talk about this? • Our commitment made 10 years ago • Major role played by LANL in construction and physics ideas • LANL played a major role in bringing PHENIX and SPIN program into life • Key players : Joel, Pat, John, Barbra, Mike, Wayne, etc. • Bottom line - we started the program and we want to finish it with good physics results