recent results on phenix longitudinal asymmetry measurements riken/rbrc itaru nakagawa 1
TRANSCRIPT
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Recent Results on PHENIX Longitudinal Asymmetry Measurements
RIKEN/RBRCItaru Nakagawa
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The Relativistic Heavy Ion Collideraccelerator complex
at Brookhaven National Laboratory
PHENIXSTAR
Brahmspp2pp
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RHIC p+p accelerator complex
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v vv
BRAHMS & PP2PP
STARPHENIX
AGS
LINACBOOSTER
Pol. Proton Source
Spin Rotators
20% Snake
Siberian Snakes
200 MeV polarimeter Rf Dipoles
RHIC pC “CNI” polarimeters
PHOBOS
RHIC
absolute pHpolarimeter
SiberianSnakes
AGS pC “CNI” polarimeter
5% Snake
Coulomb-Nuclear Interference
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PHENIX Experiment
4Pioneering High Energy Nuclear Interaction EXperiment
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13 Countries; 70 Institutions
Abilene Christian University, Abilene, TX 79699, U.S.Baruch College, CUNY, New York City, NY 10010-5518, U.S.Collider-Accelerator Department, Brookhaven National Laboratory, Upton, NY 11973-5000, U.S.Physics Department, Brookhaven National Laboratory, Upton, NY 11973-5000, U.S.University of California - Riverside, Riverside, CA 92521, U.S.University of Colorado, Boulder, CO 80309, U.S.Columbia University, New York, NY 10027 and Nevis Laboratories, Irvington, NY 10533, U.S.Florida Institute of Technology, Melbourne, FL 32901, U.S.Florida State University, Tallahassee, FL 32306, U.S.Georgia State University, Atlanta, GA 30303, U.S.University of Illinois at Urbana-Champaign, Urbana, IL 61801, U.S.Iowa State University, Ames, IA 50011, U.S.Lawrence Livermore National Laboratory, Livermore, CA 94550, U.S.Los Alamos National Laboratory, Los Alamos, NM 87545, U.S.University of Maryland, College Park, MD 20742, U.S.Department of Physics, University of Massachusetts, Amherst, MA 01003-9337, U.S. Morgan State University, Baltimore, MD 21251, U.S.Muhlenberg College, Allentown, PA 18104-5586, U.S.University of New Mexico, Albuquerque, NM 87131, U.S. New Mexico State University, Las Cruces, NM 88003, U.S.Oak Ridge National Laboratory, Oak Ridge, TN 37831, U.S.Department of Physics and Astronomy, Ohio University, Athens, OH 45701, U.S.RIKEN BNL Research Center, Brookhaven National Laboratory, Upton, NY 11973-5000, U.S.Chemistry Department, Stony Brook University,SUNY, Stony Brook, NY 11794-3400, U.S.Department of Physics and Astronomy, Stony Brook University, SUNY, Stony Brook, NY 11794, U.S.University of Tennessee, Knoxville, TN 37996, U.S.Vanderbilt University, Nashville, TN 37235, U.S.
Universidade de São Paulo, Instituto de Física, Caixa Postal 66318, São Paulo CEP05315-970, BrazilInstitute of Physics, Academia Sinica, Taipei 11529, TaiwanChina Institute of Atomic Energy (CIAE), Beijing, People's Republic of ChinaPeking University, Beijing, People's Republic of ChinaCharles University, Ovocnytrh 5, Praha 1, 116 36, Prague, Czech RepublicCzech Technical University, Zikova 4, 166 36 Prague 6, Czech RepublicInstitute of Physics, Academy of Sciences of the Czech Republic, Na Slovance 2, 182 21 Prague 8, Czech RepublicHelsinki Institute of Physics and University of Jyväskylä, P.O.Box 35, FI-40014 Jyväskylä, FinlandDapnia, CEA Saclay, F-91191, Gif-sur-Yvette, FranceLaboratoire Leprince-Ringuet, Ecole Polytechnique, CNRS-IN2P3, Route de Saclay, F-91128, Palaiseau, FranceLaboratoire de Physique Corpusculaire (LPC), Université Blaise Pascal, CNRS-IN2P3, Clermont-Fd, 63177 Aubiere Cedex, FranceIPN-Orsay, Universite Paris Sud, CNRS-IN2P3, BP1, F-91406, Orsay, FranceDebrecen University, H-4010 Debrecen, Egyetem tér 1, HungaryELTE, Eötvös Loránd University, H - 1117 Budapest, Pázmány P. s. 1/A, HungaryKFKI Research Institute for Particle and Nuclear Physics of the Hungarian Academy of Sciences (MTA KFKI RMKI), H-1525 Budapest 114, POBox 49, Budapest, HungaryDepartment of Physics, Banaras Hindu University, Varanasi 221005, IndiaBhabha Atomic Research Centre, Bombay 400 085, IndiaWeizmann Institute, Rehovot 76100, IsraelCenter for Nuclear Study, Graduate School of Science, University of Tokyo, 7-3-1 Hongo, Bunkyo, Tokyo 113-0033, JapanHiroshima University, Kagamiyama, Higashi-Hiroshima 739-8526, JapanKEK, High Energy Accelerator Research Organization, Tsukuba, Ibaraki 305-0801, JapanKyoto University, Kyoto 606-8502, JapanNagasaki Institute of Applied Science, Nagasaki-shi, Nagasaki 851-0193, JapanRIKEN, The Institute of Physical and Chemical Research, Wako, Saitama 351-0198, JapanPhysics Department, Rikkyo University, 3-34-1 Nishi-Ikebukuro, Toshima, Tokyo 171-8501, JapanDepartment of Physics, Tokyo Institute of Technology, Oh-okayama, Meguro, Tokyo 152-8551, JapanInstitute of Physics, University of Tsukuba, Tsukuba, Ibaraki 305, JapanChonbuk National University, Jeonju, KoreaEwha Womans University, Seoul 120-750, KoreaHanyang University, Seoul 133-792, KoreaKAERI, Cyclotron Application Laboratory, Seoul, South KoreaKorea University, Seoul, 136-701, KoreaMyongji University, Yongin, Kyonggido 449-728, KoreaDepartment of Physocs and Astronomy, Seoul National University, Seoul, South KoreaYonsei University, IPAP, Seoul 120-749, KoreaIHEP Protvino, State Research Center of Russian Federation, Institute for High Energy Physics, Protvino, 142281, RussiaINR_RAS, Institute for Nuclear Research of the Russian Academy of Sciences, prospekt 60-letiya Oktyabrya 7a, Moscow 117312, RussiaJoint Institute for Nuclear Research, 141980 Dubna, Moscow Region, RussiaRussian Research Center "Kurchatov Institute", Moscow, RussiaPNPI, Petersburg Nuclear Physics Institute, Gatchina, Leningrad region, 188300, RussiaSaint Petersburg State Polytechnic University, St. Petersburg, RussiaSkobeltsyn Institute of Nuclear Physics, Lomonosov Moscow State University, Vorob'evy Gory, Moscow 119992, Russia Department of Physics, Lund University, Box 118, SE-221 00 Lund, Sweden
Feb 2011
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The PHENIX Detector• Philosophy
– high resolution & high-rate at the cost of acceptance
– trigger for rare events
• Central Arms– |h| < 0.35, Df ~ p– Momentum, Energy, PID
• Muon Arms– 1.2 < |h| < 2.4– Momentum (MuTr)
• Muon Piston Calorimeter– 3.1 < |h| < 3.9
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h+
,0
m
MPC
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DG DOUBLE HELICITY ALL RESULTS
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Probe Advantage
p0 Statistics
h Different fragmentation
p0 - p0 correlation Kinematic constraint
charged p DG sign
heavy flavor decay e- Lower x, g-g dominant
MPC cluster Lower x
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DG Measurement at PHENIX
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Central Arm p0, h
9Phys. Rev. Lett. 101, 072001(2008)
(h is similar)
Production cross section is high and from gluon interaction
PHENIX EMCal trigger friendly Found in 2 photons invariant mass
RHIC data
0.02<x<0.2
Fractional Contribition to p0 production
[1]
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ALL : Central Arm p0, h
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ΔG through • a different flavor structure• fragmentation function
Statistically Challenging
h ALLp0 ALL
Statistically enriched observable
Need to control Systematic uncertainties (relative luminosity)
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DSSV Interpretation of p0 ALL
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Run5+Run6+Run9 Combined data constrain DG Consistent with small ALL, but still compatible with STAR jet -> probes somewhat lower values of x
D. De Florian et al.Progress in Particle and Nuclear Physics 67 (2012) 251
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More Challenging Attempt : p0-p0 correlation
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Constrains event kinematics further
Cost Statistics, need high P4L
Invariant mass [GeV]
Invariant mass [GeV]
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Preliminary Charged pion ALL
pT range of this analysis covers <xg>~0.113
π± charge asymmetry is sensitive to sign of Δg(x, Q2) :
Duπ+ >Du
π0 >Duπ- , Δu>0
Ddπ+ <Dd
π0 <Ddπ- , Δd<0
For positive Δg : Aπ+ LL >Aπ0 LL >Aπ- LL
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Heavy Flavor Decay Electrons
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arXiv : 0911.2146
Subprocess fraction at NLO
𝒄 ,𝒄→𝒆+𝑿
𝝅𝟎 Signal electron
D
0K e
e
cc
HBD
e
material)(in )(0 ee
ee )(0 backgrounds
eKD
eKD
e
e
0
0
signal
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DG Extraction from ALLHFe
Open charm production dominates in pT range of 0.50 < pT < 1.25 GeV/c
(J/ψ <2%, b quark<5%) |∆g/g( logx ,µ)|⟨ ⟩ 2 <3 ×10 −2 (1σ) ( 0.01 ~ x ~ 0.08)
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This results largely benefited from using HBD in eliminating photo-conversion and Dalitz decay background.
Decay electrons include J/ψ , bottom production and other vector meson as well as open charm contributions.
arXiv:1209.3278 Submitted to PRD
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Exploring Lower-x by Forward MPC
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Muon Piston Calorimeter 3.1<|η|<3.9• Low PT Reconstructed π0
• High PT Merged π0
cluster
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pT (GeV/c) 2 3
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Dominated by p0
• Still consistent with zero at lower x• Systematic error starts to defeat
statistics• Good control of relative luminosity
required for better precision
Cluster ALL
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SEA QUARK POLARIZATIONPRELIMINARY AL
W FROM RUN11
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Probe Rapidity Advantage
W->e central Good S/N
W->m forward Enhanced sea quark
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sqrt(s)=500 GeV @ RHIC
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Parity Violation AsymmetryClean flavor separationw/o fragmentation uncertainty
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Run11 Central Arm W->e
21Backgrounds could be mitigated by relative isolation cut
Run9 PRL106,062001 (2011)
Signal electron :• High momentum electron• Isolated
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Single Electron PT Spectra
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Back
grou
nd D
omin
ant
Sign
al +
Bac
kgro
und
Signal
Background
• Power Law Counting
Background Shape Fixed in
10<PT<20 GeV/c
• Jacobian Peak (PYTHIA+GEANT)
+ Power Low Background Fitting• Resulting Background
contamination 14 ~ 17%.
Run11
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Central Arm AL
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Central Arm AL
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Phys. Rev. Lett. 106, 062001 (2011)
Run9
Consistent With Run9 Results Consistent with Global Analyses Predictions within 2s
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Forward W-> m Analysis
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Single Muon PT Spectra
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Efficiency corrections W/Z cross section employed
RHICBOS NLO S/B estimation from fixed W/Z
cross section (RHICBOS NLO)
S/B ~ 1/3
Background estimation in data driven manner
Resolution Improvement for better S/N
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The First Forward ALW
Results
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More to come!
Run11 Run12Luminosity 25 50
First Forward W Asymmetry Results!
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W measurement Run13 Projections
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Goal : 250 pb-1 on tape (-30<zvtx<30cm)
Improving Performance of RHIC
Delivered Luminosity
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Further Sea Quark Measurement w/ DY
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FVTX (S) FVTX (N)
VTX
VTX
ϒ-states
J/Ψ
Drell Yan
charmbeauty
Invariant mass (GeV)
S/B contributionsw/o vertex detector
Low
-mass
DY
High-mass DY
Extract DY events from heavy flavorsusing FVTX
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SummaryPresented latest DG and Dq measurements from PHENIXHigh statistics p0 provides strict limit on present knowledge
of DGDifferent probes constrain DG from various angles (purity,
sign, low-x, etc…)
First measurement of forward W AL. Improving our
knowledge on Dq in conjunction with W->e data.Higher statistics and smaller systematic in future
measurements
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BACKUP
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References
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[1]
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Global Fit including Run9 0 ALL 33
By S.Taneja et al (DIS2011)ala DSSV with slightly different uncertainty evaluation approach
DSSV DSSV + PHENIX Run9 0 ALL
No node …Uncertainties decreasedA node at x~0.1 ?
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Charged pion Cross Section
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Charge separated fragmentation functions are not well constrained in DSS FFs
In good agreement with STAR
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HBD Analysis for Heavy Flavor Decay e-
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HBD Signal Occupancy
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DG Extraction from ALLHFe
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Open charm production dominates in pT range of 0.50 < pT < 1.25 GeV/c (J/ψ <2%, b quark<5%)
pQCD prediction for ALLopen charm
obtained from CTEQ6M PDFs + PYTHYA + LO hard scattering cross section
ALLopen charm ~|∆g/g(x, µ)|2
|∆g(x, µ)| = C g(x, µ) is assumed
Results: |∆g/g( logx ,µ)|⟨ ⟩ 2 <3.3 ×10 −2 (1σ)
and 10.9 ×10 −2 (3σ)
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Central W Analysis
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Central Arm AL
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