Resummation of Large Endpoint Corrections to Color-Octet J/ Photoproduction
Resummation in High Energy Scattering -- BFKL vs Sudakov
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Resummation in High Energy Scattering-- BFKL vs Sudakov
Feng Yuan
Lawrence Berkeley National Laboratory
Refs: Mueller, Xiao, Yuan, PRL110, 082301 (2013); Phys.Rev. D88 (2013) 114010.
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High energy scattering
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kT
kT
kT
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>…
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BFKL: Un-integrated gluon distribution
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Non-linear term at high density Balitsky-Fadin-Lipatov-Kuraev, 1977-
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Balitsky-Kovchegov: Non-linear term, 98
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Hard processes at small-x
Manifest dependence on un-integrated gluon distributionsDominguiz-Marquet-Xiao-Yuan, 2010
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kT
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Additional dynamics comes in
BFKL vs Sudakov resummations (LL)
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kT
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Soft gluon
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Sudakov resummation at small-x
Take massive scalar particle production p+A->H+X as an example to demonstrate the double logarithms, and resummation
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p H,MH
WW-gluon distribution
A
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Explicit one-loop calculations
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Collinear divergence DGLAP evolution Small-x divergence BK-type evolution
Dominguiz-Mueller-Munier-Xiao, 2011
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Soft vs Collinear gluons
Radiated gluon momentum
Soft gluon, α~β<<1 Collinear gluon, α~1, β<<1 Small-x collinear gluon, 1-β<<1,
α0Rapidity divergence
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Examples
Contributes toCollinear gluon from the protonCollinear gluon from nucleusSoft gluon to Sudakov double logs
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Only contributes to small-x collinear gluon
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Final result Double logs at one-loop order
Include both BFKL (BK) and Sudakov
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Photon-Jet correlation
Leading order
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Dipole gluon distribution
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One gluon radiation (real)
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BK-evolution
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These two do notContribute to softGluon radiation
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Soft gluon radiation
A2 from (a,b) contribute to CF/2 (jet)
A2 from (c,d) contribute to CF
Interference contribute to 1/2Nc
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ggqq
|A1|2CA, |A2|2CF/2, |A3|2CF/2
2A1*(A2+A3)-Nc/2
2A2*A3, 1/Nc suppressed
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qgqg
|A1|2CF, |A2|2CF/2, |A3|2CA/2
2A3*(A1+A2)-Nc/2
2A1*A2, large Nc suppressed
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gggg
|A1|2CA, |A2|2CA/2, |A3|2CA/2
2A1*(A2+A3)+2A2*A3-Nc
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Sudakov leading double logs Each incoming parton contributes to a half
of the associated color factor Initial gluon radiation, aka, TMDs
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Sudakov
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Phenomenological applications
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Di-hadron azimuthalCorrelations at theElectron-ion Collider
Zheng, Aschenauer,Lee,Xiao, Phys.Rev. D89 (2014) 074037
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Beyond leading logs
Additional nuclear effects, such as energy loss will come inLiou-Mueller, 1402.1647
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Interference betweenThem, leads to energyLoss calculated in Liou-Mueller
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Next-to-leading-logarithms (NLL) Matrix form in the Sudakov resummation
Sun,Yuan,Yuan,1405.1105
Kidonakis-Sterman, NPB 1997 Banfi-Dasgupta-Delenda,
PLB2008
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D0@Tevatron
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Dijet with large rapidity gap
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Ducloue,Szymanowski,Wallon1309.3229, only take into account BFKL
Sudakov resummation will dominate Small angle distribution
CMS@LHC
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Conclusion
Sudakov double logs can be re-summed in the small-x saturation formalism
Soft gluon and collinear gluon radiation is well separated in phase space
Shall provide arguments to apply the effective kt-factorization to describe dijet correlation in pA collisions
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