impact of running coupling and higher order corrections on ......guillaume beuf brookhaven national...
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![Page 1: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/1.jpg)
Impact of running coupling and higher order corrections on gluon saturation
Impact of running coupling and higher ordercorrections on gluon saturation
Guillaume Beuf
Brookhaven National Laboratory
DIS 2011, Newport News, April 14
![Page 2: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/2.jpg)
Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Kinematical regimes in DIS
Saturation scale Qs(Y ).
For Q > Qs(Y ): dilute regime.
For Q < Qs(Y ): dense regime, with a breakdown of the collinearfactorization.
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Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Dipole factorization of DIS
σγ∗pT ,L(Y ,Q2) = 2
∫
d2r∑
f
∫ 10 dz |Ψf
T ,L(r, z ,Q2)|2∫
d2b N(x, y,Y )
Virtual photon wave-function (known): ΨfT ,L(r, z ,Q2).
Dipole-target elastic scattering amplitude: N(x, y,Y ),
with a dipole of size x− y = r and impact parameterb = (x + y)/2.
Nikolaev, Zakharov (1991)
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Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Balitsky Kovchegov (BK) equation at LO
∂Y N(x, y,Y ) = α
∫
d2z
2π
(x−y)2
(x−z)2(z−y)2
[
N(x, z,Y )
+N(z, y,Y ) − N(x, y,Y ) − N(x, z,Y )N(z, y,Y )]
Balitsky (1996), Kovchegov (1999-2000)
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Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Balitsky Kovchegov (BK) equation at LO
∂Y N(x, y,Y ) = α
∫
d2z
2π
(x−y)2
(x−z)2(z−y)2
[
N(x, z,Y )
+N(z, y,Y ) − N(x, y,Y ) − N(x, z,Y )N(z, y,Y )]
Balitsky (1996), Kovchegov (1999-2000)
Approximation: impact parameter independence:N(x, y,Y ) ≃ N(|r|,Y ),
with the prescription∫
d2b N(x, y,Y ) ≃ π R2target N(|r|,Y ).
![Page 6: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/6.jpg)
Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Balitsky Kovchegov (BK) equation at LO
∂Y N(x, y,Y ) = α
∫
d2z
2π
(x−y)2
(x−z)2(z−y)2
[
N(x, z,Y )
+N(z, y,Y ) − N(x, y,Y ) − N(x, z,Y )N(z, y,Y )]
Balitsky (1996), Kovchegov (1999-2000)
Approximation: impact parameter independence:N(x, y,Y ) ≃ N(|r|,Y ),
with the prescription∫
d2b N(x, y,Y ) ≃ π R2target N(|r|,Y ).
However there are issues with this assumption.Berger, Stasto (2010)
Talk by J. Berger
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Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Geometric scaling of the data
10-1
1
10
10 2
10 3
10-3
10-2
10-1
1 10 102
103
E665
ZEUS+H1 high Q2 94-95H1 low Q2 95ZEUS BPC 95ZEUS BPT 97
x<0.01
all Q2
τ
σ totγ*
p [µ
b]
From the data: σγ∗ptot (Y ,Q2) = σγ∗p
tot (Q2/Q2s (Y ))
with Q2s (Y ) ∝ eλY and λ ≃ 0.2 or 0.3.
Stasto, Golec-Biernat, Kwiecinski (2001)
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Impact of running coupling and higher order corrections on gluon saturation
High energy QCD and gluon saturation
Geometric scaling of the data
10-1
1
10
10 2
10 3
10-3
10-2
10-1
1 10 102
103
E665
ZEUS+H1 high Q2 94-95H1 low Q2 95ZEUS BPC 95ZEUS BPT 97
x<0.01
all Q2
τ
σ totγ*
p [µ
b]
Or, thanks to the dipole factorization:
N(r,Y ) = N(r2 Q2s (Y ))
.
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Traveling waves
Apart from numerical simulations, one of the most powerful toolsto study the solutions of the BK equation is the traveling wavemethod.In general: Ebert, van Saarloos (2000)
For the QCD case: Munier, Peschanski (2003-2004).
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Traveling waves
Apart from numerical simulations, one of the most powerful toolsto study the solutions of the BK equation is the traveling wavemethod.In general: Ebert, van Saarloos (2000)
For the QCD case: Munier, Peschanski (2003-2004).
It allows to
Obtain the exact large Y behavior of the solutions of BK.
![Page 11: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/11.jpg)
Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Traveling waves
Apart from numerical simulations, one of the most powerful toolsto study the solutions of the BK equation is the traveling wavemethod.In general: Ebert, van Saarloos (2000)
For the QCD case: Munier, Peschanski (2003-2004).
It allows to
Obtain the exact large Y behavior of the solutions of BK.
Understand the outcome of numerical simulations.
![Page 12: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/12.jpg)
Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Traveling waves
Apart from numerical simulations, one of the most powerful toolsto study the solutions of the BK equation is the traveling wavemethod.In general: Ebert, van Saarloos (2000)
For the QCD case: Munier, Peschanski (2003-2004).
It allows to
Obtain the exact large Y behavior of the solutions of BK.
Understand the outcome of numerical simulations.
Obtain suitable informations to be put in phenomenologicalmodels. Iancu, Itakura, Munier (2004).
![Page 13: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/13.jpg)
Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Formal BK equation
At leading logarithmic (LL) accuracy, the BK equation writesformally as
∂Y N(L,Y ) = α{
χ(−∂L)N(L,Y ) − Nonlinear damping}
with the BFKL eigenvalue χ(γ) = 2Ψ(1) − Ψ(γ) − Ψ(1−γ) andL ∼ − log(r2)
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Properties of saturation equations
The BK equation has the following properties:
1 Exponential growth and diffusion in the dilute regimeN(L,Y ) ≪ 1.
2 Nonlinear damping in the dense regime N(L,Y ) ≃ 1.
3 Family of uniformly translated wave-front (or exact scaling)solutions N(L,Y ) = Nγ(L−v αY ), which have
a tail in the UV of the type Nγ(s) ∝ e−γs
a dispersion relation v(γ) = χ(γ)/γ
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Properties of saturation equations
The BK equation has the following properties:
1 Exponential growth and diffusion in the dilute regimeN(L,Y ) ≪ 1.
2 Nonlinear damping in the dense regime N(L,Y ) ≃ 1.
3 Family of uniformly translated wave-front (or exact scaling)solutions N(L,Y ) = Nγ(L−v αY ), which have
a tail in the UV of the type Nγ(s) ∝ e−γs
a dispersion relation v(γ) = χ(γ)/γ
Theorem:For the equations with such properties, all solutions with steepenough initial conditions converge to the uniformly translatedwave-front solution of minimal velocity vc = v(γc), in an universalway.Bramson (1983)
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
In QCD: color transparency ⇒ steep enough initial conditions⇒ all physically relevant solutions have a universal asymptoticbehavior.Munier, Peschanski (2003-2004)
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
In QCD: color transparency ⇒ steep enough initial conditions⇒ all physically relevant solutions have a universal asymptoticbehavior.Munier, Peschanski (2003-2004)
→ Allows to better establish and extend previous analytical resultsfrom:Gribov, Levin, Ryskin (1983)Iancu, Itakura, McLerran (2002)
Mueller, Triantafyllopoulos (2002)
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
log N(L, Y )
0
v0 α∆Y
vc α∆Y
−γ0
−γc
L
Three different regimes for the solutions:the saturated regime, the universal dilute regime (or geometricscaling window), and the initial condition dominated dilute regime,which is progressively invaded by the universal one.
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
General method to calculate the universal relaxation of thesolutions: Ebert, van Saarloos (2000)
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
General method to calculate the universal relaxation of thesolutions: Ebert, van Saarloos (2000)
Outcome: position of the wave-front / saturation scale:
Ls(Y ) ≡ log
(
Qs(Y )2
Q02
)
= vc αY −3
2γc
log(αY ) + Const.
−3
γ2c
√
2π
χ′′(γc) αY+ O
(
1
αY
)
when translated into QCD notations: Munier, Peschanski (2004).
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Impact of running coupling and higher order corrections on gluon saturation
Universal traveling waves solutions at fixed coupling
Universality of traveling wave solutions
General method to calculate the universal relaxation of thesolutions: Ebert, van Saarloos (2000)
Outcome: position of the wave-front / saturation scale:
Ls(Y ) ≡ log
(
Qs(Y )2
Q02
)
= vc αY −3
2γc
log(αY ) + Const.
−3
γ2c
√
2π
χ′′(γc) αY+ O
(
1
αY
)
when translated into QCD notations: Munier, Peschanski (2004).
Remark: At fixed coupling the nuclear enhancementQ2
s,A = A1/3 Q2s,p is introduced by the initial condition and left
intact by the evolution, in the Const. term.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
From fixed to running coupling
∂Y N(L,Y ) = α{
χ(−∂L)N(L,Y ) − Nonlinear damping}
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
From fixed to running coupling
∂Y N(L,Y ) = α{
χ(−∂L)N(L,Y ) − Nonlinear damping}
Parent dipole prescription for the running coupling:
α 7→1
bL, with b =
11Nc−2Nf
12Nc
and L = − log
(
r2ΛQCD2
4
)
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
From fixed to running coupling
∂Y N(L,Y ) =1
bL
{
χ(−∂L)N(L,Y ) − Nonlinear damping}
Parent dipole prescription for the running coupling:
α 7→1
bL, with b =
11Nc−2Nf
12Nc
and L = − log
(
r2ΛQCD2
4
)
![Page 25: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/25.jpg)
Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Higher order corrections
∂Y N(L,Y ) =1
bL
{
χ(−∂L)N(L,Y ) − Nonlinear damping}
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Higher order corrections
∂Y N(L,Y ) =1
bL
{
χ(−∂L)N(L,Y ) − Nonlinear damping}
+1
(bL)2
{
χNLL(−∂L)N(L,Y ) − Nonlinear damping}
One can include the full NLL BFKL/BK corrections in thatequation
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Higher order corrections
∂Y N(L,Y ) =1
bL
{
χ(−∂L)N(L,Y ) − Nonlinear damping}
+1
(bL)2
{
χNLL(−∂L)N(L,Y ) − Nonlinear damping}
+ . . .
One can include the full NLL BFKL/BK corrections in thatequation, and formally NNLL and higher order contributions.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Higher order corrections
∂Y N(L,Y ) =1
bL
{
χ(−∂L)N(L,Y ) − Nonlinear damping}
+1
(bL)2
{
χNLL(−∂L)N(L,Y ) − Nonlinear damping}
+ . . .
One can include the full NLL BFKL/BK corrections in thatequation, and formally NNLL and higher order contributions.
→ Also allows to address the case of different running runningcoupling prescription, like Balitsky’s smaller dipole size prescription.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
Nonlinear damping
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
Nonlinear damping
Color transparency ⇒ steepness of the relevant initialconditions.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
Nonlinear damping
Color transparency ⇒ steepness of the relevant initialconditions.
No exact scaling solutions!
![Page 34: Impact of running coupling and higher order corrections on ......Guillaume Beuf Brookhaven National Laboratory DIS 2011, Newport News, April 14 Impact of running coupling and higher](https://reader036.vdocuments.mx/reader036/viewer/2022071517/613b2d9cf8f21c0c8268db52/html5/thumbnails/34.jpg)
Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
Nonlinear damping
Color transparency ⇒ steepness of the relevant initialconditions.
No exact scaling solutions!
But approximate scaling solutions N(L,Y ) ≃ f (s(L,Y )) inthe relevant regime L,Y → ∞ with s(L,Y )/L → 0.
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Impact of running coupling and higher order corrections on gluon saturation
BK equations with running coupling
Properties of the equations with running coupling.
Instability and diffusion of the dilute regime
Nonlinear damping
Color transparency ⇒ steepness of the relevant initialconditions.
No exact scaling solutions!
But approximate scaling solutions N(L,Y ) ≃ f (s(L,Y )) inthe relevant regime L,Y → ∞ with s(L,Y )/L → 0.
⇒ A universal wave-front can form asymptotically.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Saturation scale with running coupling
Using the same method as in the fixed coupling case, the universalasymptotic solution N(L,Y ) with running coupling has beencalculated in the relevant regime L,Y → ∞ with s(L,Y )/L → 0.
Then the saturation scale Qs(Y ) is defined and calculated from:
N(Ls(Y ),Y ) = κ , with Ls(Y ) ≡ logQ2
s (Y )
Λ2QCD
G.B., arXiv:1008.0498G.B., in preparation.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Universal part of the saturation scale
Ls(Y ) = logQ2
s (Y )
Λ2QCD
=
(
2vcY
b
)1/2
+3ξ1
4
(
D2 2vcY
b
)1/6
+c0 + c−1/6
(
D2 2vcY
b
)−1/6
+ c−1/3
(
D2 2vcY
b
)−1/3
+O(
Y−1/2)
,
with 3 new universal coefficients c0, c−1/6 and c−1/3.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Notations
γc : solution of χ(γc) = γc χ′(γc )
vc =χ(γc)
γcand D =
χ′′(γc)
2χ(γc)
ξ1 ≃ −2.338: rightmost zero of the Airy function.
Higher derivatives of the LL BFKL eigenvalue parameterized by:
Kn =2χ(n)(γc)
n!χ′′(γc)for n ≥ 3
NLL contributions parameterized by:
Nn =χ
(n)NLL(γc)
n!χ(γc) bfor n ≥ 0
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Universal part of the saturation scale
c0 = Σ −1
γc
−K3
2+ N0
c−1/6 = ξ12
[
1
72 γ2c
−D
32+
K3
4γc
−3
8K3
2 +3
10K4
]
c−1/3 = ξ1
{
Σ2
6γc
+
[
K3
2γc
−1
3γ2c
]
Σ +2
27γ3c
+D
3γc
+K3
[
−2
3γ2c
+3K3
4γc−
11K32
4
]
+ K4
[
−1
γc+6K3
]
− 3K5
+1
2γ2c
[1+3γcK3] [N0−γcN1] + N2−DN0
}
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
Dominant NLL effect at large rapidity: in the constant termc0. ⇒ Reduction of Qs(Y ) by a constant factor, and does notaffects its evolution.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
Dominant NLL effect at large rapidity: in the constant termc0. ⇒ Reduction of Qs(Y ) by a constant factor, and does notaffects its evolution.
First NLL contributions affecting the evolution of Qs(Y ):delayed to the order Y−1/3.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
Dominant NLL effect at large rapidity: in the constant termc0. ⇒ Reduction of Qs(Y ) by a constant factor, and does notaffects its evolution.
First NLL contributions affecting the evolution of Qs(Y ):delayed to the order Y−1/3.
NNLL effects on log Qs(Y ) delayed until the order Y−1/2, asexpected.Peschanski, Sapeta (2006); G.B., Peschanski (2007)
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
Dominant NLL effect at large rapidity: in the constant termc0. ⇒ Reduction of Qs(Y ) by a constant factor, and does notaffects its evolution.
First NLL contributions affecting the evolution of Qs(Y ):delayed to the order Y−1/3.
NNLL effects on log Qs(Y ) delayed until the order Y−1/2, asexpected.Peschanski, Sapeta (2006); G.B., Peschanski (2007)
Renormalization scheme independant result for Qs(Y ).
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
0 10 20 30 40 50
5
10
15
Rapidity
ln(Q
s2 )
Berger, Stasto (2010)
Solid line: LO kernel with running coupling.Dashed line: with in addition all order resummation of kinematicaleffects.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: higher order contributions
Avsar, Stasto, Triantafyllopoulos, Zaslavsky (work in progress)
Talk by E. Avsar
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: suppression of initial condition dependance
Constant term in log Q2s (Y ): universal in the running coupling
case.
And initial condition effects on log Q2s (Y ) delayed until the
order Y−1/2.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: suppression of initial condition dependance
Constant term in log Q2s (Y ): universal in the running coupling
case.
And initial condition effects on log Q2s (Y ) delayed until the
order Y−1/2.
⇒ Confirmation by direct calculation of this effect, alreadypredictedMueller (2003)
and observed numericallyRummukainen, Weigert (2004); Albacete et al. (2005).
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: suppression of initial condition dependance
Constant term in log Q2s (Y ): universal in the running coupling
case.
And initial condition effects on log Q2s (Y ) delayed until the
order Y−1/2.
⇒ Confirmation by direct calculation of this effect, alreadypredictedMueller (2003)
and observed numericallyRummukainen, Weigert (2004); Albacete et al. (2005).
The nuclear enhancement Q2s,A = A1/3 Q2
s,p should completelydisappear at very large rapidity.
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Impact of running coupling and higher order corrections on gluon saturation
Saturation scale with running coupling
Remarks: suppression of initial condition dependance
Constant term in log Q2s (Y ): universal in the running coupling
case.
And initial condition effects on log Q2s (Y ) delayed until the
order Y−1/2.
⇒ Confirmation by direct calculation of this effect, alreadypredictedMueller (2003)
and observed numericallyRummukainen, Weigert (2004); Albacete et al. (2005).
The nuclear enhancement Q2s,A = A1/3 Q2
s,p should completelydisappear at very large rapidity.
However, Y −1/2 decreases quite slowly, in practice...
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Impact of running coupling and higher order corrections on gluon saturation
Conclusion
Conclusion
Running coupling effects must be taken into account for thehigh energy evolution with the gluon saturation (differentuniversality class).
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Impact of running coupling and higher order corrections on gluon saturation
Conclusion
Conclusion
Running coupling effects must be taken into account for thehigh energy evolution with the gluon saturation (differentuniversality class).
Effects of NLL and higher orders seen in the numericsunderstood qualitatively from analytical calculations.→ More quantitative comparisons?
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Impact of running coupling and higher order corrections on gluon saturation
Conclusion
Conclusion
Running coupling effects must be taken into account for thehigh energy evolution with the gluon saturation (differentuniversality class).
Effects of NLL and higher orders seen in the numericsunderstood qualitatively from analytical calculations.→ More quantitative comparisons?
Suppression of the nuclear enhancement of Qs at asymptoticrapidity.→ Slower A-dependance at low x at the EIC or LHeC?
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Impact of running coupling and higher order corrections on gluon saturation
Backup slides
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Examples: there is one family of approximate scaling variables
s(L,Y ) =L
2δ
[
1−
(
2vY
bL2
)δ]
for each δ > 0.
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Examples: there is one family of approximate scaling variables
s(L,Y ) =L
2δ
[
1−
(
2vY
bL2
)δ]
for each δ > 0.For generic δ: Critical solution with same parameters v = vc andγ = γc as as at fixed coupling.
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Examples: there is one family of approximate scaling variables
s(L,Y ) =L
2δ
[
1−
(
2vY
bL2
)δ]
for each δ > 0.For generic δ: Critical solution with same parameters v = vc andγ = γc as as at fixed coupling.
Particular case δ = 1/2: geometric scaling variable:
s(L,Y ) = L −
√
2vY
b≃ − log
(
r2Q2s (Y )
4
)
with Q2s (Y ) ∼ ΛQCD
2 exp(
√
2vY /b)
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Approximate scaling variables for generic solutions with steepinitial conditions:→ has to include relaxation to the scaling variable with minimalvelocity vc , via diffusion effects.
s(L,Y ) =L
2δ
[
1−
(
2vcY
bL2
)δ]
−3ξ1
4(DL)1/3
+η + µ(DL)−1/3 + ν(DL)−2/3 + O(
L−1)
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Approximate scaling variables for generic solutions with steepinitial conditions:→ has to include relaxation to the scaling variable with minimalvelocity vc , via diffusion effects.
s(L,Y ) =L
2δ
[
1−
(
2vcY
bL2
)δ]
−3ξ1
4(DL)1/3
+η + µ(DL)−1/3 + ν(DL)−2/3 + O(
L−1)
First diffusive correction: already known. ξ1: zero of Airy function.
D = χ′′(γc )2 χ(γc )
.Mueller, Triantafyllopoulos (2002); Munier, Peschanski (2004)
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Impact of running coupling and higher order corrections on gluon saturation
Scaling variables and running coupling
Approximate scaling variables for generic solutions with steepinitial conditions:→ has to include relaxation to the scaling variable with minimalvelocity vc , via diffusion effects.
s(L,Y ) =L
2δ
[
1−
(
2vcY
bL2
)δ]
−3ξ1
4(DL)1/3
+η + µ(DL)−1/3 + ν(DL)−2/3 + O(
L−1)
First diffusive correction: already known. ξ1: zero of Airy function.
D = χ′′(γc )2 χ(γc )
.Mueller, Triantafyllopoulos (2002); Munier, Peschanski (2004)
Other coefficients η, µ and ν: new results.
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Impact of running coupling and higher order corrections on gluon saturation
Calculation of the universal asymptotics
First step:
Solve the evolution equation in the regime L → ∞ and s = O(1),roughly parallel to lines of constant density, assuming a low enoughdensity to linearize the equation:
N(L,Y ) = A e−γc s
[
s+1
γc+(DL)−2/3 φ2(s)+(DL)−1 φ3(s)+O
(
L−4/3)
]
with polynomial functions φ2(s), φ3(s), . . .
.
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Impact of running coupling and higher order corrections on gluon saturation
Calculation of the universal asymptotics
Second step:
Solve the evolution equation in the regime L → ∞ ands = O(L1/3), with z = s
(DL)1/3 + ξ1 = O(1), were one follow the
spreading of the universal solution into the dilute tail :
N(L,Y ) = A e−γc s
[
(DL)1/3 Ai(z)
Ai′(ξ1)+ G0(z) + (DL)−1/3 G1(z)
+(DL)−2/3 G2(z) + O(
L−1)
]
where the Gn(z) are Airy functions times polynomials.
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Impact of running coupling and higher order corrections on gluon saturation
Calculation of the universal asymptotics
Third step:
Match the two asymptotic expansions.
Impose the causality requirements Gn(z) → 0 for z → ∞.
Check that N(L,Y ) starts to saturate at a constant height.
⇒ At the order considered, all parameters and integrationconstants are determined, except the normalization constant A ofN(L,Y ), which is nevertheless independent of initial conditions.
.
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Impact of running coupling and higher order corrections on gluon saturation
Dependance on the chosen scaling variable
Asymptotic solution of the BK equation with running coupling (noNLL kernel). Y = 10, 30, 50, 70.Blue: δ = 1/4. Black: δ = 1/2. Red: δ = 1.Left: with G0(z) = G1(z) = G2(z) = η = µ = ν = 0.Right: with all the orders calculated.
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Impact of running coupling and higher order corrections on gluon saturation
Dependance on the chosen scaling variable
Dependance on δ weaker and weaker when increasing the accuracyof the calculations.
→ Exact solution independent on the choice of scaling variables(L,Y ).
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Impact of running coupling and higher order corrections on gluon saturation
Dependance on the chosen scaling variable
→ Shows without bias the validity of an effective approximategeometric scaling in the running coupling case.
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Impact of running coupling and higher order corrections on gluon saturation
Extraction of the saturation scale
The saturation scale Qs(Y ) is defined by a level line:
N(Ls(Y ),Y ) = κ , with Ls(Y ) ≡ logQ2
s (Y )
Λ2QCD
From the result
N(L,Y ) = A e−γc s
[
s +1
γc+ (DL)−2/3 φ2(s) + O
(
L−1)
]
,
one gets s(Ls(Y ),Y ) = Σ −1
γc+ (D Ls(Y ))−2/3 φ2(Σ−1/γc)
γcΣ−1,
where Σ ≡ −1
γc
W−1
(
−γc κ
A e
)
,
and W−1(x) is the −1 branch of the Lambert function.
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Impact of running coupling and higher order corrections on gluon saturation
Qs(Y ): Parent dipole vs. Balitsky’s prescription
Solid line: with Balitsky’s prescription.Dotted line: with the parent dipole prescription.
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Impact of running coupling and higher order corrections on gluon saturation
Qs(Y ): Parent dipole vs. Balitsky’s prescription
⇒ Running coupling prescription: important for the normalizationof Qs(Y ) but not for its evolution, at large Y .
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Impact of running coupling and higher order corrections on gluon saturation
Qs(Y ) with the full NLL BFKL kernel
Solid line: with the full NLL BFKL kernel.Dotted line: with no NLL contribution besides running couplingwith parent gluon k⊥.
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Impact of running coupling and higher order corrections on gluon saturation
Qs(Y ) with the full NLL BFKL kernel
⇒ Full NLL effects stabilize λ(Y ) in the phenomenologicallypreferred range 0.2 - 0.3.
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Impact of running coupling and higher order corrections on gluon saturation
Qs(Y ) with the full NLL BFKL kernel
Test of subleading initial conditions:Black: universal terms only.Red: with a shift Y 7→ Y − 2.5 in the leading term only.