Opportunities in low x physics at a future Electron-Ion Collider (EIC) facility
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1 1 Opportunities in low x physics at a future Electron-Ion Collider (EIC) facility
2 Motivation Quantum Chromo Dynamics Proton=uud Visible Universe Galaxies, stars, people, Silent Partners: Protons & Neutrons 3 valence quarks + Virtual quark-antiquark pairs (ΔE Δt ~ h) Gluons Structure and dynamics of proton (mass) ( visible universe) originates from QCD-interactions What about spin as another fundamental quantum number?
3 3 Motivation The silent (low x) partners...: Gluons and QCD-Sea Fundamental questions: What are the properties x3 of gluons that bind x3 < x strongly interacting particles? e What is the quark-gluon internal structure of e nucleons? What are the properties of quark-gluon matter at x Q x < x1 x p X high density? W Q /x x1
4 4 Outline Low-x physics: Future opportunities Low-x physics: Concepts and Status Summary and Outlook
5 5 Low-x Physics - Concepts and Status Low-x basics Access higher parton density system Larger center-of-mass energy ( s): Smaller x at larger s fixed-target s = EB m collider s = 4Eb1 Eb x Q s Forward direction: Smaller x at larger at larger η pt x e η s central (η 0) (η 0) forward (η large) ea vs. ep scattering: Probe higher parton density system in ea compared to ep e p e A A1/3
6 6 Low-x Physics - Concepts and Status Low-x basics Y+ = 1 + (1 y) Cross-sections and structure functions d σ dydq " πα Y+ = yq4 y F FL Y+ " Q γ p = xe σ F = tot qf 4π α f =q q γ p σtot = γ p σt + γ p σl Q γ p FL = σ xg 4π α L Universality dσ = f1,f f1 f dσ f1 f f X Dfh Factorization Important: Complementary probes are required for unambiguous extraction of observables in high-energy density QCD region
7 7 Low-x Physics - Concepts and Status " 1 Y = ln x Dynamics: DGLAP / BFKL and CGC Low-x basics CGC: Color-GlassCondensate Qs (Y ) CGC BK/JIMWLK BFKL DGLAP Qs: Saturation scale saturation region Characterize transition to 1 Qs αs xg(x, Q ) πr Enhanced for ea compared to ep: A1/3 x δ ΛQCD αs 1 αs 1 Q DGLAP: Evolution in Q BFKL: Evolution in x
8 8 Low-x Physics - Concepts and Status Low-x basics Consider virtual photon-proton cross-section Dipole model Frame: Proton rest frame Interaction time < Fluctuation time at low x Dipole model: Interaction of quark/anti-quark pair with proton γ p σtot = γ 1 z r z dz dr Ψ σ(qq )p σ(qq )p γ Lower x Lower Q p p r
9 9 Low-x Physics - Concepts and Status HERA: F at low x ZEUS xg df d ln Q Q=1 GeV 6 ".5 GeV ZEUS NLO QCD fit 4 xg xs Strong violation of scaling at low x and high Q xs 0 xg - 7 GeV 0 GeV 0 xf tot. error (αs free) tot. error (αs fixed) uncorr. error (αs fixed) xg xg xs 0 xs 00 GeV 000 GeV 30 In contrast to: 0 xg xg xs Low Q high x xs x
10 Low-x Physics - Concepts and Status D. Schildknecht, B.S., Phys. Lett. B499 (001) 116. A.M. Stasto et al., PRL 86 (001) τ = Q Q0 x x0 "λ σtotγ*p(µb) (scaled) HERA: γ*p cross-section ZEUS BPT97 ZEUS SVTX95 ZEUS 96/ H1 ISR (prel.) H1 SVTX95 H1 96/97 BCDMS low W PHP ZEUS γp96 (prel.) E665 SLAC NMC H1 QCD CSST (GVD/CDP) ZEUS Regge97 Q (GeV) 0.00 (x 048) (x 4) (x 51) 0.15 (x 56) 0.0 (x 18) (x 64) 0.40 (x 3) 0.50 (x 16) (x 8) 0.90 (x 4) 1.30 (x ) 1.90 (x 1).70 (x 1/) 3.50 (x 1/4) 4.50 (x 1/8) 6.50 (x 1/ 16) Dipole-model approach: Successful description of 1 both inclusive and diffractive processes at low x Change of Q dependence around 1GeV Q 1/x W(GeV)
11 11 Low-x Physics - Concepts and Status Diffraction Ratio of diffractive to total cross-section (00<W<45GeV): 15% at Q=4GeV Dipole models: Successful description of inclusive and various diffractive measurements (e.g. Ratio of diffractive to inclusive cross- αs " g(x, Q ) section, Diffractive Vector-Meson production)
12 Low-x Physics - Concepts and Status 1 Fixed-target scattering Inclusive structure function ratio important to constrain nuclear modifications to gluon density World data (Fixed target) are concentrated above x>0.01 in pqcd region For x<0.01 only data in non-pqcd region
13 Low-x Physics - Concepts and Status 13 R dau RHIC da scattering at forward η d+au h- BRAHMS data s NN = 00 GeV (η = 3.) pqcd+shadow [Guzey et al.] pqcd+shadow [Accardi] CGC [Tuchin et al.] CGC [Jalilian-Marian] p (GeV/c) T STAR Forward identified hadron production at RHIC in dau collisions: Sizable suppression of yields for charged hadrons and neutral pions observed pqcd+shadowing calculations over-predict hadron yield suppression. Is this an indication for gluon saturation in Au nuclei? More RHIC dau are expected with enhanced detector capabilities (PHENIX/STAR)
14 Low-x Physics - Future Opportunities 14 Key questions in low-x physics for a future ep/ea facility How do strong fields appear in hadronic or nuclear wavefunctions at high energies? How do they respond to external probes or scattering? What are the appropriate degrees of freedom? Is this response universal? (ep, pp, ea, pa, AA) (QCD Theory Workshop, DC, December 15-16, 006) Required measurements: A future EIC facility can provide definite answers to these questions What is the momentum distribution of gluons in matter? What is the space-time distributions of gluons in matter? How do fast probes interact with gluonic matter? Do strong gluon fields affect the role of color singlet excitations (Pomerons)?
15 Low-x Physics - Future Opportunities 15 Facilities EIC (US): Electron-Ion Collider erhic: ep and ea (light to heavy nuclei, up to U) Linac-Ring: ep (0GeV / 50GeV):.6 33 cm - s -1 ea (0GeV / 0GeV/n):.9 33 cm - s -1 / n Ring-Ring: ep (GeV / 50GeV): cm - s -1 ea (GeV / 0GeV/n): cm - s -1 / n ELIC: ep and ea (light nuclei) Linac-Ring: ep (7GeV / 150GeV): cm - s -1 ea (7GeV / 75GeV/n): cm - s -1 / n
16 Low-x Physics - Future Opportunities 16 Kinematics Q (GeV ) 4 3 y = 1 HERA y = 1 EIC (/0) y = 1 EIC (/50) NMC BCDMS E665 SLAC CCFR x
17 Key observables in electron-proton and electron-nucleus scattering at low x Gluon distribution: F L (Variable center-of-mass energy) and F Jet rates Inelastic vector meson production (e.g. J/Psi) Space-Time distribution of gluon: F L (Variable center-of-mass energy) and F Deep virtual compton scattering (DVCS) Exclusive final states (e.g. Vector meson production) Interaction of fast probes with matter: Hadronization, Fragmentation studies Energy loss (Heavy quarks) Impact of strong gluon fields on the role of color neutral excitations: Diffractive structure functions Diffractive vector meson production ea erhic meeting BNL, October 0, 006
18 Low-x Physics - Future Opportunities 18 Observables: Nuclear structure function ratios F will be one of the first measurements at EIC nds, EKS, FGS: pqcd models with different amounts of shadowing EIC will allow to distinguish between d σ dydq " πα Y+ = yq4 y F FL Y+ " pqcd and saturation model predictions
19 Low-x Physics - Future Opportunities 19 Observables: Longitudinal structure function FL measurement requires operation of EIC at different center-of-mass energies ( s) Precise measurement from low to high Q region d σ dydq " πα Y+ = yq4 y F FL Y+ " Q γ p FL = σl xg 4π α Unique measurement at EIC of FL with high precision in ep collisions to constrain gluon distribution
20 0 Low-x Physics - Future Opportunities Observables: Ratio of nuclear gluon distribution function EIC will reach the unmeasured low-x region (<0.01) with high precision for Q>1GeV Constrain gluon modification due to nuclear effects in comparison to large range of models EIC will measure modification of gluon d σ dydq " = πα Y+ yq4 F y FL Y+ " FL = Q γ p σ xg 4π α L distribution with high precision
21 Low-x Physics - Future Opportunities 1 Observables: Diffractive measurements x IP = momentum fraction of the Pomeron with respect to the hadron β = momentum fraction of the struck parton with respect to the Pomeron x IP = x/β EIC allows to distinguish between linear evolution and saturation models in diffractive scattering with high precision
22 Summary and Outlook Status and Concepts HERA: Precision structure function measurements (F ) at low x At low Q and low x: DGLAP (Leading twist) approach leads to valence-like gluon behavior Diffraction: Important contribution to overall ep event yield Dipole model: Allows to describe inclusive and diffractive measurements. Reach of saturation region at low x not conclusive Lesson: Optimize any future EIC efforts for acceptance and luminosity ea: No information in low-x region dau results at RHIC: Can saturation account for observed behavior? Complementary probes important (RHIC/LHC) EIC important to answer outstanding questions in highenergy QCD physics
23 Summary and Outlook 3 Future Opportunities EIC will allow to study the physics of strong color fields: Explore existence of saturation regime Measurement of momentum and space-time gluon distributions Study the nature of color singlet excitations (Pomeron) Urgency to establish next-generation ep/ea collider facility Study nuclear medium effects Test and study factorization / universality Fundamental QCD studies Required: EIC at high luminosity and optimized detector EIC will allow to bridge several QCD communities (Hadron structure and Relativistic Heavy-Ion) Unique opportunity: US leadership in precision QCD physics (The QCD LAB) complementary to other next generation facilities in Europe (LHC at CERN, FAIR at GSI) and Asia (J-PARC)
24 Backup 4 Observables: Extraction of gluon distribution function J. Dainton et al., hep-ex/ ea operation at EIC allows to reach very low-x region competitive with LHeC (ep)
25 Backup 5 Rise of F and parton distribution functions
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