Low-x Meeting – Ischia Island, Italy – September 8 -13 2009 1 Diffractive quarkonium production in association with a photon at the LHC* Maria Beatriz.

Slides:

Advertisements

Similar presentations

Workshop on Diffractive Physics at the LHC – Rio de Janeiro – Sep Estimating the diffractive heavy quark production in heavy ion collisions at.

Advertisements

Workshop on Diffractive Physics at the LHC – Rio de Janeiro – Sep Quarkonium plus photon at LHC: diffractive production* Maria Beatriz Gay Ducati.

Luca Stanco - Padova Heavy Quarkonium, Fermilab 1 Charmonium Production at HERA Luca Stanco – INFN Padova Outline: Introduction J/  Production Mechanisms.

Low x meeting, Sinai Alice Valkárová on behalf of H1 collaboration LOW x meeting 2005, Sinaia H1 measurements of the structure of diffraction.

June 20, Back-to-Back Correlations in p+p, p+A and A+A Reactions 2005 Annual AGS-RHIC User's Meeting June 20, BNL, Upton, NY Ivan Vitev, LANL Ivan.

Initial and final state effects in charmonium production at RHIC and LHC. A.B.Kaidalov ITEP, Moscow Based on papers with L.Bravina, K.Tywoniuk, E.Zabrodin.

CERN March 2004HERA and the LHC: Diffractive Gap Probability K. Goulianos1 HERA and the LHC K. Goulianos, The Rockefeller University CERN March.

1 Pierre Marage Univ. Libre de Bruxelles On behalf of the H1 and ZEUS collaborations Diffraction at HERA CIPANP 2006 Puerto-Rico 29/5-4/6/2006.

Brazil 31 Mar – 2 Apr 2004 Diffraction: from HERA & Tevatron to LHC K. Goulianos1 Diffraction: from HERA & Tevatron to LHC K. Goulianos, The Rockefeller.

Diffractive Hadroproduction of W +, W - and Z 0 bosons at high energies (*) Maria Beatriz Gay Ducati High Energy Phenomenology Group GFPAE - IF – UFRGS,

K. Goulianos The Rockefeller University Pomeron Intercept and Slope: are they related? Small-x and Diffraction, FERMILAB, March 2007 intercept slope.

Manchester Dec 2003 Diffraction from HERA and Tevatron to LHCK. Goulianos1 Konstantin Goulianos The Rockefeller University Workshop on physics with.

19-24 May 2003K. Goulianos, CIPANP Konstantin Goulianos The Rockefeller University & The CDF Collaboration CIPANP-2003, New York City, May.

ISMD July – 1 August 2004 Sonoma County, California, USA DIFFRACTION FROM THE DEEP SEA Konstantin Goulianos The Rockefeller University.

Diffractive Quarkonium Production at High Energies Mairon Melo Machado a, Maria Beatriz Gay Ducati a, Magno Valério Trindade Machado b High Energy Phenomenology.

Karlheinz Meier - Kirchhof-Institut für Physik - Heidelberg University - Vth Workshop on Small-x and Diffractive Physics - Fermilab - September 2002 Odderon.

25 th of October 2007Meeting on Diffraction and Forward Physics at HERA and the LHC, Antwerpen 1 Factorization breaking in diffraction at HERA? Alice Valkárová.

Interjet Energy Flow at ZEUS. Patrick Ryan. Univ. of Wisconsin DPF, Aug. 27, Patrick Ryan University of Wisconsin Aug. 27, 2004 Interjet Energy.

4-7 June 2003K. Goulianos, Low-x Workshop, Nafplion1 Konstantin Goulianos The Rockefeller University & The CDF Collaboration Low-x Workshop, Nafplion,

Diffractive J/ψ+γ Production at Collider Energies Mairon Melo Machado High Energy Phenomenology Group, GFPAE IF – UFRGS, Porto Alegre

Diffractive Higgs Production at the Tevatron and LHC Do we all disagree, and, if so, why? How sensitive are the predictions to the.

M.KapishinDiffraction using Proton Spectrometers at HERA 1 Results on Diffraction using Proton Spectrometers at HERA Low-x Meeting: Paphos, Cyprus, June.

M.KapishinDiffraction and precise QCD measurements at HERA 1 Rencontres de Moriond QCD 2012 M.Kapishin, JINR on behalf of the H1 and ZEUS Collaborations.

Inclusive Jets in ep Interactions at HERA, Mónica V á zquez Acosta (UAM) HEP 2003 Europhysics Conference in Aachen, July 19, Mónica Luisa Vázquez.

Working Group C: Hadronic Final States David Milstead The University of Liverpool Review of Experiments 27 experiment and 11 theory contributions.

1 Jets in diffraction and factorization at HERA Alice Valkárová Charles University, Prague On behalf of H1 and ZEUS collaborations.

J/ψ Production in pPb Collisions at the LHC Zhang, Hong-Fei Third Military Medical University.

Testing saturation with diffractive jet production in DIS Cyrille Marquet SPhT, Saclay Elastic and Diffractive Scattering 2005, Blois, France based on.

16/04/2004 DIS2004 WGD1 Jet cross sections in D * photoproduction at ZEUS Takanori Kohno (University of Oxford) on behalf of the ZEUS Collaboration XII.

Factorization Breaking in Diffractive Photoproduction of Dijets Motivation Diffractive parton densities Multipomeron exchanges Direct and resolved photoproduction.

Diffractive structure functions in e-A scattering Cyrille Marquet Columbia University based on C. Marquet, Phys. Rev. D 76 (2007) paper in preparation.

Diffraction:An Perspective Diffraction:An Experimental Perspective Andrew Brandt University of Texas, Arlington CTEQ Summer School June 3, Madision,

J/  production in p+p collisions at PHENIX and gluon distribution QWG meeting at FNAL September Hiroki Sato (Kyoto University) for the PHENIX collaboration.

A review of diffraction at HERA

LISHEP Rio de Janeiro1 Factorization in diffraction Alice Valkárová Charles University, Prague On behalf of H1 and ZEUS collaborations.

7 th April 2003PHOTON 2003, Frascati1 Photon structure as revealed in ep collisions Alice Valkárová Institute of Particle and Nuclear Physics Charles University.

Inclusive Diffraction at HERA Marcella Capua – INFN and Calabria University Small X and Diffraction FNAL Chicago (USA) 17 – 20 September 2003 on behalf.

Seminários GFPAE – 02/ Diffractive heavy quark production at the LHC Mairon Melo Machado

Nucleon-Nucleon collisions. Nucleon-nucleon interaction at low energy Interaction between two nucleons: basic for all of nuclear physics Traditional goal.

HERA Physics and Gustav Kramer Alice Valkárová, Charles University, Prague 2nd April 2013Festkolloquium - G.Kramer1.

DIS Conference, Madison WI, 28 th April 2005Jeff Standage, York University Theoretical Motivations DIS Cross Sections and pQCD The Breit Frame Physics.

Marta Ruspa, "Inclusive diffraction", DIS Inclusive diffraction Diffractive cross section and diffractive structure function Comparison with colour.

K. Goulianos The Rockefeller University Renormalized Diffractive Parton Densities and Exclusive Production Diffraction 2006 Milos island, Greece, 5-10.

Hadron Structure 2009 Factorisation in diffraction Alice Valkárová Charles University, Prague Representing H1 and ZEUS experiments Hadron structure.

1 Introduction to diffraction, Review of diffraction from HERA and Tevatron First ReteQuarkonii Workshop October, 2010, Nantes, France Maria Beatriz.

1 Diffractive quarkonium production in association with a photon at the LHC * Maria Beatriz Gay Ducati GFPAE – IF – UFRGS

Isabell-A. Melzer-Pellmann Photon 2005, Diffractive interactions in ep collisions Diffractive interactions in ep collisions Isabell-Alissandra.

1 Diffractive dijets at HERA Alice Valkárová Charles University, Prague Representing H1 and ZEUS experiments.

Understanding forward particle production Opportunities for Drell-Yan Physics at RHIC May 13 th, 2011 Roman Pasechnik Uppsala University, THEP group 1.

Results on Inclusive Diffraction From The ZEUS Experiment Data from the running period The last period with the ZEUS Forward Plug Calorimeter.

Overview of low-x and diffraction at HERA Henri Kowalski DESY Rencontres de Moriond La Thuile, March 2006.

Isabell-A. Melzer-Pellmann DIS 2007 Charm production in diffractive DIS and PHP at ZEUS Charm production in diffractive DIS and PHP at ZEUS Isabell-Alissandra.

1 Diffractive heavy quark production in AA collisions at the LHC at NLO* Mairon Melo Machado GFPAE – IF – UFRGS

A. Bertolin on behalf of the H1 and ZEUS collaborations Charm (and beauty) production in DIS at HERA (Sezione di Padova) Outline: HERA, H1 and ZEUS heavy.

17-20 September 2003K. Goulianos, Small x and Diffraction, Fermilab1 Konstantin Goulianos The Rockefeller University Small x and Diffraction

Costas Foudas, Imperial College, Jet Production at High Transverse Energies at HERA Underline: Costas Foudas Imperial College

Diffraction at DØ Andrew Brandt University of Texas, Arlington Intro and Run I Hard Diffraction Results Run II and Forward Proton Detector Physics Colloquium.

Outline Motivation DDIS kinematics Introduction of different diffractive data sets Global fit procedure Results and conclusion Sara Taheri Monfared (Semnan.

1 Diffraction at HERA, Tevatron and LHC II Workshop on Diffractive Physics at LHC September, 2011, Rio de Janeiro, Brazil Maria Beatriz Gay Ducati.

June 10, 2008A. Levy: Exclusive VM, GPD08, Trento1 Exclusive VM electroproduction Aharon Levy Tel Aviv University on behalf of the H1 and ZEUS collaborations.

Measurements of Heavy Quarkonium Production and Polarization at CMS Linlin ZHANG （张琳琳） and Sijin QIAN （钱思进） Peking University 中国物理学会高能物理分会 2014 学术年会武汉，湖北，

1 Proton Structure Functions and HERA QCD Fit HERA+Experiments F 2 Charged Current+xF 3 HERA QCD Fit for the H1 and ZEUS Collaborations Andrew Mehta (Liverpool.

Introduction to pQCD and TMD physics

Aspects of Diffraction at the Tevatron

Diffraction in ep collisions

DIS 2004 XII International Workshop

Diffraction at HERA Alice Valkárová Charles University, Prague

Single Diffractive Higgs Production at the LHC *

Productions and Decays of Charmonium Application of perturbative QCD

Diffractive PDF fits and factorisation tests at HERA

Presentation transcript:

Low-x Meeting – Ischia Island, Italy – September Diffractive quarkonium production in association with a photon at the LHC* Maria Beatriz Gay Ducati GFPAE – IF – UFRGS * Refer to work: arXiv:hep/

Low-x Meeting – Ischia Island, Italy – September Outlook  Motivation  Diffractive Physics  Hadroproduction quarkonium + photon  Pomeron Structure Function  Multiple Pomeron Scattering  Results  Conclusions

Low-x Meeting – Ischia Island, Italy – September Motivation Higher statistics of small-x and hard diffractive processes intensive experimental study Has been used to improve the knowledge about QCD Several mechanisms for quarkonium production in hadron colliders Color singlet modelColor octet model 1 Color evaporation model Cross section for quarkonium production gluon densities Pomeron with substructure gluons Heavy quarkonium production clean signature through leptonic decay modes 1 J. P. Lansberg – Eur. Phys. J. C 60, 693 (2009)

Low-x Meeting – Ischia Island, Italy – September Introduction  Diffractive processes overall cross sections  Regge Theory exchange of a Pomeron with vacuum quantum numbers  Nature of the Pomeron and its reaction mechanisms 2 not completely known  Use of hard scattering quark and gluon content in the Pomeron  Observations of diffractive deep inelastic scattering (DDIS) at HERA (1994)  Increased the knowledge about the QCD Pomeron  Diffractive Distributions of singlet quarks and gluons in the Pomeron 2 P. D. Collins, An Introduction to Regge Theory and High Energy Physics (1977) Diffractive structure function

Low-x Meeting – Ischia Island, Italy – September Diffractive events  Single diffraction in hadronic collisions one of the colliding hadrons emits Pomeron that scatters off the other hadron  Hard diffractive events with a large momentum transfer Absence of hadronic energy in certain angular regions of the final state phase space Rapidity gaps Central diffractive events  Both colliding hadrons remain intacts as they emit a Pomeron each

Low-x Meeting – Ischia Island, Italy – September Diffractive Physics Ingelman-Schlein Model Momentum fraction of partons inner the Pomeron Squared of the proton's four-momentum transfer Momentum fraction of the proton carried by the Pomeron 3 3 G. Ingelman and P. Schlein, Phys. Lett. 152B (1985) 256.

Low-x Meeting – Ischia Island, Italy – September o Focus on the following single diffractive processes Diffractive hadroproduction o Diffractive ratios as a function of transverse momentum p T of quarkonium state o Quarkonia produced with large p T easy to detect o Singlet contribution o Octet contributions o Higher contribution on high p T 4 4 J. P. Lansberg, arXiv:hep-ph/

Low-x Meeting – Ischia Island, Italy – September J/ψ+γ production Considering the Non-relativistic Quantum Chromodynamics (NRQCD) Gluons fusion dominates over quarks annihilation 4 Leading Order cross section convolution of the partonic cross section with the PDF MRST 2001 LO no relevant difference using MRST 2002 LO and MRST 2003 LO Non-perturbative aspects of quarkonium production 4 J. P. Lansberg, arXiv:hep-ph/  v is the relative velocity of the quarks in the quarkonia Expansion in powers of v NLO expansions in αs one virtual correction and three real corrections

Low-x Meeting – Ischia Island, Italy – September Quarkonium + photon production Singlet subprocess Octet subprocess, 5 5 C. S. Kim, J. Lee and H. S. Song, Phys. Rev. D55 (1997) 5429 No gluon interactions Gluon interactions

Low-x Meeting – Ischia Island, Italy – September NRQCD Factorization  Negligible contribution of quarks annihilation at high energies 6 6 R. Li and J. X. Wang, Phys. Lett. B672 (2009) 51 is the center mass energy (LHC = 14 TeV ) J/ψ rapidity 9.2 GeV 2

Low-x Meeting – Ischia Island, Italy – September ( ) is the momentum fraction of the proton carried by the gluon NRQCD factorization Cross section written as invariant mass of J/  +  system Coefficients are computable in perturbation theory Matrix elements of NRQCD operators

Low-x Meeting – Ischia Island, Italy – September Matrix elements Bilinear in heavy quarks fields which create as a pairQuarkonium state 7 7 T. Mehen, Phys. Rev. D55 (1997) 4338 α s running

Low-x Meeting – Ischia Island, Italy – September Matrix elements (GeV 3 ) x x m 2 c , 9 8 E. Braaten, S. Fleming, A. K. Leibovich, Phys. Rev. D63 (2001) F. Maltoni et al., Phys. Lett. B638 (2006) 202 GeV/c 2 GeV

Low-x Meeting – Ischia Island, Italy – September Diffractive cross section Momentum fraction carried by the Pomeron Squared of the proton's four-momentum transfer Pomeron flux factor Pomeron trajectory

Low-x Meeting – Ischia Island, Italy – September Variables to DDIS Cuts for the integration over x IP Scales

Low-x Meeting – Ischia Island, Italy – September Pomeron structure function Parametrization of the pomeron flux factor and structure function 10 H1 Coll. A. Aktas et al, Eur. J. Phys. J. C48 (2006) 715 Normalization parameter m p = proton mass ParameterValue α’ IP B IP α IR (0) α’ IR B IR mcmc mbmb α 8 (5) (M Z 2 ) Normalized for H1 Collaboration 10

Low-x Meeting – Ischia Island, Italy – September Gluon distribution Range < z < 0.8 Same of experiment In this work we use FIT A. Similar results with FIT B Fit A (and uncertainties) color center line Fit B (and uncertainties) black line

Low-x Meeting – Ischia Island, Italy – September Gap Described in terms of screening or absortive corrections Multiple Pomeron effects absorptive corrections gap survival probability (GSP) A(s,b) amplitude of the particular diffractive process of interest P S (s,b) probability that no inelastic interactions occur between scattering hadrons Gap Survival Probability (GSP) 11 E. Gotsman, E. Levin, U. Maor and A. Prygarin, arXiv:hep-ph/

Low-x Meeting – Ischia Island, Italy – September KKMR model Pion-loop insertions in the bare Pomeron pole nearest singularity generated by t-channel unitarity Two-channel eikonal incorporates Pomeron cuts generated by elastic and quasi-elastic s-channel unitarity High-mass diffractive dissociation Multiple Pomeron effects absorptive corrections Good description of the data of the total and differential elastic cross section Value of = 0.06 at LHC single diffractive events 11 E. Gotsman, E. Levin, U. Maor and A. Prygarin, arXiv:hep-ph/ KKMR description to hadronic collisions embodies:

Low-x Meeting – Ischia Island, Italy – September Results to J/  +  Predictions for inclusive and diffractive cross sections RHIC, Tevatron and LHC Diffractive cross sections considering GSP ( ) Reproduces descriptions of 5 -1 < |y| < 1 B = is the branching ratio into electrons 5 C. S. Kim, J. Lee and H. S. Song, Phys. Rev. D55 (1997) 5429 at LHC Renu Bala, XLVII International Winter Meeting on Nuclear Physics (2009)

Low-x Meeting – Ischia Island, Italy – September Results to J/  +  at LHC B = Absolute value of inclusive cross section strongly dependent Diffractive cross sections (DCS) without GSP Comparison between two different sets of diffractive gluon distribution (H1) Absolute value of DCS weakly sensitive to the uncertainties of DPDF o Quark mass o NRQCD matrix elements o Factorization scale

Low-x Meeting – Ischia Island, Italy – September Results to Υ+  Predictions of inclusive cross section RHIC, Tevatron and LHC -1 < |y| < 1 B = is the branching ratio into electrons

Low-x Meeting – Ischia Island, Italy – September Results to Υ+  at LHC B = Absolute value of inclusive cross section strongly dependent Diffractive cross sections (DCS) without GSP ( ) Comparison between two different sets of diffractive gluon distribution (H1) Dependence of FITs are slight more pronounced in charmonium case o Quark mass o NRQCD matrix elements o Factorization scale

Low-x Meeting – Ischia Island, Italy – September Diffractive ratio  Slight large diffractive ratio in comparison to 5 [σ] = pb considering FIT A 5 C. S. Kim, J. Lee and H. S. Song, Phys. Rev. D55 (1997) 5429 This workRef 5 =0.06 Renormalized Pomeron flux Evolution of Q 2 in gluon density No evolution of Q 2  Could explain the p T dependence in our results

Low-x Meeting – Ischia Island, Italy – September Conclusions Theoretical prediction for inclusive and single diffractive quarkonium + photon production at LHC energy in pp collisions Estimates for differential cross sections as a function of quarkonium transverse momentum Diffractive ratio is computed using hard diffractive factorization and absorptive corrections Ratios are less dependent on the heavy quarkonium production mechanism Quite sensitive to the absolute value of absorptive corrections Distribution on Next step Next-to-Leading Order R (J/ψ) SD = 0,8 – 0,5 % R (Υ) SD = 0,6 – 0,4 %