sl eic 2010 rutgers · 2010-03-15 · elements (⇒ generalized parton distributions, gpds) which...
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Deeply Virtual Exclusive Processes with Charm*
Simonetta LiutiUniversity of Virginia
EIC Collaborations MeetingRutgers UniversityMarch 14-16, 2010
*In collaboration with: Leonard Gamberg, Gary Goldstein Graduate Students: Osvaldo Gonzalez Hernandez, Tracy McAskill
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Outline
Introduction and Main Goal for an EIC
Hard Exclusive Charmed Mesons Production
⇒ A unique investigation of charm content of nucleons
From JLAB 6-12 GeV to EIC
⇒ Modeling the Q2 dependence of neutral mesonselectroproduction(S. Ahmad, G. Goldstein, S.L., PRD79, 2008; G. Goldstein, S.L., hep-ph2010)
Conclusions/Outlook
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The next decade…role of QCD at the LHC LHC results from multi-TeV CM energy collisions will open new horizons
but many “candidate theories” will provide similar signatures of adeparture from SM predictions…
Precision measurements require QCD input
QCD: A background for “beyond the SM discovery”
Interesting dynamical questions for QCD at untested high energies
Introduction
! (P1,P
2) = dx
1dx
2fi"i, j# (x
1,µF ) f j (x2 ,µF )!̂ (x1, x2 ,$S (µR ),µF )
Measured x-section Parton distributions Hard process x-section
σij
P2
P1
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2) Rich dynamics of hadrons can only be accessed and tested at thedesired accuracy level in lepton DIS
Most important points for EIC
1) Our understanding of the structure of hadrons is … disconcertingly incomplete
Uncertainties from different PDF evaluations/extractions(ΔPDF)are smaller than the differences between the evaluations(ΔG) ΔPDF < ΔG
d-bar
u-valence d-valence
Gluon
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Our contribution to EIC physics (S.L. with G. Goldstein and L. Gamberg)
Study heavy quark components → charm, through hard exclusive processes
Why charm?
LHC processes are sensitive to charm content of the proton ⇒ Higgs production: SM Higgs, charged Higgs,
⇒ Precision physics (CKM matrix elements, Vtb ….): single top production, …cs !H
+
C.P.Yuan and collaborators
IC! (CTEQ, IC)
! (CTEQ)
IC
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CTEQ 6.6
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Data are at very low x where they cannot discriminate whether IC is there
10-2
x
10-3
IC/no-IC
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-ηc, Do, and Do exclusive production is governed by chiral-odd soft matrixelements (⇒ Generalized Parton Distributions, GPDs) which cannotevolve from gluons!
ηc, Do, and Do used as triggers of “intrinsic charm content”!
P+
p+q
q q’=q+Δ γ*p → ηcp’
Chiral-odd GPDs: HT,ET,..
ηc, Do, …
A window into heavy flavor production at the EIC
-
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c
c
Do
u
!cp ∝ Hc
Do
!c
cp
u
u∝ Hc
p → u + ud → cud = Λc p → ccuud → (u u) cud = Λc - -
( 2 )( 1 )
What Observables?Spin Asymmetries from Exclusive Heavy Quark Meson Production!
γ*p → Do Λc+ ⇒ 2Hu - Hd + Hc
γ*p → Do Σc+ ⇒ Hd - Hc
γ*n → Do Σco ⇒ Hu - Hc
--
-SU(4) relations allowone to extract Hc
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cp
c
c∝ Hc
p → ccuud → (c c) uud = p -
ηc
p-
( 3 )
EIC “golden plated signal”
ηc= cc → JPC= 0-+-
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LAB
e'
eπo,ηc
Unpolarized Cross Section
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pp0* !" #
Q2 dependence in exclusive mesonproduction
Jlab
Unexpected dominanceof transverse components
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πo
“Regge factorization” QCD factorization
πo vertex is described by current operators: γ5 or γµ γ5 chiral-even structure
γ5 →
chiral-odd structure
GPDs: H, E,…~
~GPDs: HT, ET, HT, ET…
~
~
JPC=1--
JPC=1+-
γ, ρ, ω, ..
b1, h1
Q2 dependence
πo
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Chiral Even Sector: M. Diehl and D. Ivanov (2008)
Only combination good for πo production
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GPDs: H, E, and Weak Form factors~ ~
gP(t) = pseudoscalar form factor → dominated by pion pole
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E~ Goeke et al.
1) For πo production the pion pole contribution is absent!
2) The non-pole contribution is very small!
“non-pole” contribution
pion pole contribution
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πo,ηc electroproduction happens
mostly in the chiral-odd sector
⇒it is governed by chiral-odd GPDs
⇒issue overlooked in most recentliterature on the subject
Since chiral-odd GPDs cannot evolve from gluons we have proven thatηc, Do, and Do uniquely single out the “intrinsic charm content”!
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Helicity Amplitudes formalism
f!" ,!; 0, #!
photon initial proton
final protonpion
Factorized form
P’, Λ’
k’, λ’
P, Λ
k, λ
“quark-proton helicity amp.”γ quark scattering amp.
6 “f” helicity amps
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Rewrite helicity amps. expressions using new GFFs
Q2 dependent pion vertexGFFs
elementary subprocess
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Standard approach (Goloskokov and Kroll, 2009)
γµγ5 ⇒ leading twist contribution within OPE, leads to suppression of transverse vs. longitudinal terms γ5 ⇒ twist-3 contribution is possible
However…⇒ suppression is not seen in experiments
Need to devise method to go beyond the collinear OPE: considera mechanism that takes into account the breaking of rotational symmetry by the scattering plane in helicity flip processes (transverse d.o.f.)
See also
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t-channel exchangevertex
modeled as Fpγ (pseudoscalar-meson transition form factor)
ρ, ω b1, h1 πo
ρ, ω, b1, h1
JPC=1-- (3S1) JPC=1+-(1P1)
JPC=0-+
mesons quark content:
Q2 dependence
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Distinction between ω,ρ (vector) and b1,h1 (axial-vector)exchanges
JPC=1--
JPC=1+-
transition from ω,ρ(S=1 L=0) to πo(S=0 L=0) ΔL =0
transition from b1,h1 (S=0 L=1) to πo(S=0 L=0) ΔL =1
“Vector” exchanges no change in OAM
“Axial-vector” exchanges change 1 unit of OAM!
This yields configurations of larger “radius” in b space (suppressed with Q2)
Because of OAM axial vector transition involves Bessel J1
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Global parametrizations for GPDs...?
The name of the game: Devise a form combining essentialdynamical elements with a flexible model that allows for afully quantitative analysis constrained by the data
Hq(X, ζ, t)= R(X, ζ, t) G(X, ζ, t)
“Regge” Quark-Diquark
+ Q2 Evolution
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Parton Distribution Functions
Notice! GPD parametricform is given at Q2=Qo
2
and evolved to Q2 of data.
Notice! We provide aparametrization forGPDs thatsimultaneously fitsthe PDFs:
Hq(X,z,t)= R(X,z,t) G(X,z,t)
ReggeQuark-Diquark
ζ=0,t=0
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S. Ahmad, H. Honkanen, S. L., S.K. Taneja, PRD75:094003,2007
ζ = 0, t≠0 Nucleon Form Factors
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Parameters from PDFs
Parameters from FFs
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Munoz Camacho et al., PRL(2006)
BSA data are predicted at this stage
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Hall B (one binning, 11 more)
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Preliminary predictions for EIC
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⇒ Replace PDF used for light quarks GPDs with NP charm based one
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HAPPEx+E734 G0 + BNL E734
⇒ Replace FF used for light quarks GPDs with upper limit on charm based one
Pate, McKee, Papavissiliou,PRC78(2008)
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G.Goldstein, S.L. (preliminary)
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Region ofinterest
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Conclusions and OutlookEIC with an extended kinematical coverage (low to “larger” xBj) andwide Q2 range will provide invaluable information on both pdfs(needed for LHC …!!), and basic hadronic properties: nature of charmcontent, quark and gluons spin, transversity…
Through deeply virtual exclusive charmed mesons production wesuggested a unique way of singling out the Intrinsic Charm (IC)content of the nucleon:
Transversity sensitive observables are key: they cannotevolve from gluons
Asymmetries for Pseudoscalar Charmed mesons productionwill establish a lower limit on the size of IC component