C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA1 Partonic Interpretation of Diffraction at HERA Christian Kiesling,

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Presentation transcript:

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA1 Partonic Interpretation of Diffraction at HERA Christian Kiesling, MPI München Introduction Experimental Methods General Features of Diffraction at HERA Partonic Structure from QCD Fits Tests of QCD Factorization Summary and Conclusions

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA2 DL: Hera Introduction Regge theory: trajectory in the t-channel vacuum QNE = „Pomeron“ QCD: colorless exchange Gluons, quarks in a color singlet ? All total cross sections involving strongly interacting particles (hadrons) show approximate constancy, more precisely: universal slow rise, towards high energy „constant“ cross sections arise from Diffractive Phenomena What is diffraction in the partonic language ?

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA3 HERA – the world‘s largest electron microscope (Deutsches Elektronen-Synchrotron DESY, Hamburg, Germany) : 920 GeV : 27.5 GeV ~ 6.3 km circumference Resolution: ~ m 50 TeV on stat. target HERA start: 1992 upgraded in 2001: „HERA II“

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA4 Diffraction in Interactions DVCS quasi- elastic VM prod. photon dissoc. proton dissoc. DD PD GD „ES“ ES various phenomenological models: Diffraction very interesting wrt saturation: may be the first place where saturation shows up. Regge-motivated (factorizable Pomeron) Soft Color Interactions Color Dipole Models (2 gluon exchange models, saturation models)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA5 DIS event Rapidity Gap Method Diffractive Event Experimental Techniques Measuring the scattered proton Forw. Neutron C. Forw. Pr. Spect. Leading Proton Spectrometer

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA6 Experimental Techniques (cont.) LPS Method proton scattered at small angles, measured in LPS, get longitudinal and transverse momentum components M X Method QCD radiation suppressed between struck quark and proton remnant rapidity gap M X distribution flat in fit to non-diff mass distribution:

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA7 fraction of the proton momentum carried by the charged parton fraction of the electron energy carried by the virtual photon („inelasticity“) (mass) 2 of system center of mass energy of system (momentum transfer) 2 virtuality of („size“ of the probe) -1 color singlet exchange Probing the Partonic Nature of Diffractive Exchange

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA8 Probing the Partonic Nature of Diffractive Exchange (cont.) momentum fraction of color singlet exchange relative to the proton momentum fraction of charged constituent of the diffractive exch., participating in the hard scattering (momentum transfer) 2 at proton vertex

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA9 Diffractive Cross Sections and QCD Factorization ( can be neglected at low ) (QCD) Factorization for diffractive scattering (Collins et al.): diffractive PDF‘s of flavor in the proton, for fixed (evolves in Q 2 according to DGLAP) universal, hard scattering cross section, calculable in pQCD

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA10 Regge Factorization shape of diffr. PDF‘s independent of normalization of controlled by Pomeron flux Additional assumption (no proof): Regge factorization, the „Resolved Pomeron“ (Ingelman-Schlein-Model) Pomeron flux factor Integration over (usually unobserved):

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA11 Experimental Test of Regge Factorization Example: ZEUS LPS data Parameterization of Pomeron flux: at low : data support Regge factorization higher : sub-leading Reggeons necessary

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA12 Diffractive vs Inclusive DIS weak dependence on, similar to the photon (few partons ?)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA13 Diffractive vs Inclusive DIS (cont.): Q 2 dependence Positive scaling violations up to large : gluon-dominated („few“ gluons) ~ 0.6 ~ 0.15 diff: scal. viol. incl: scal. viol.

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA14 Transition region: diffractive steeper than inclusive (Regge-like) DIS region: same energy dependence (QCD-like, e.g. saturation models) Diffractive vs Inclusive DIS (cont.): W dependence

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA15 Full HERA I data set (using rapidity gap method) Statistics improved by a factor 5 ! (based on Forw. Proton Spect.) Agreement between both methods (similar results from ZEUS) With high precision data now DGLAP analysis possible (similar to DIS): partonic structure of diffraction (curves from QCD fit, see below)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA16 Partonic Structure of Diffraction: (LO, NLO DGLAP fits) ansatz for the partonic structure: NLO DGLAP fit for singlet and gluon contributions to NLO LO (squared Chebychev polynomials (3 params) times exponential damping for ) charm via boson gluon fusion via QCD relation

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA17 Partonic Structure of Diffraction (cont.) positive scaling violations even for large  : gluon dominates gluon distribition mainly determined from scaling violations restrict data to (pomeron factorization holds)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA18 Partonic Structure of Diffraction (cont.) Full propagation of experimental uncertainties (inner error bands) Theoretical uncertainties (outer bands): Diffraction is gluon-dominated Gluon momentum fraction:

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA19 Detailed Tests of the Partonic Picture test QCD factorization using diffractive pdf‘s photon virtuality cms emergy mass of diffr. System inv. 2-jet mass jet 1 jet 2 di-jetscharm production sensitive to the gluon content momentum fraction carried by pomeron momentum fraction carried by the parton inside the pomeron entering the hard subprocess LO: higher order:

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA20 Dijets in DIS Diffractive Scattering measure directly from identified jets (CDF cone algo.) new cuts w.r.t. published data (Eur. Phys. J. C20 (2001) 29) (NLO unstable if ) compare with MC predictions using gluon from H1-QCD fit to inclusive data NLO calculations using DISENT correction to hadron level applied NLO calculations agree with data – factorization seems to work

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA21 Charm Production in Diffraction Charm directly probes the gluonic component of the Pomeron very sensitive to different dpdf‘s (suppress subleading Reggeon exchange) data still statistics limited

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA22 Charm Production in Diffraction (cont.) Predictions: use gluon pdf from a NLO QCD fit (Alvero et al.) to inclusive diffractive data (similar to the H1 fit) data well described, both by QCD model (HVQDIS, Harris et al.) (Charm not suppressed in diffraction) Charm rate independent of also for charm factorization seems to work in addition (not shown):

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA23 Further Tests of QCD Factorization in Diffraction One step further: use dpdf‘s to predict di-jets at the Tevatron Observe serious breakdown of factorization: Prediction from HERA an order of magnitude too large Generally for Tevatron: Also other diffractive processes only of order 1 % Possible reason: additional hadron in the initial state, rescattering, reduction of „gap survival probability“ (Kaidalov, Khoze et al.)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA24 Further Tests (cont.) : Di-Jets in Diffractive Photoproduction LO MC (Rapgap) with dpdf from H1 fit does describe the data ! low virtuality photons at HERA are „hadrons“ No violation of factorization in „hadron physics“ at HERA ?

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA25 Factorization Tests in Diffractive Photoproduction (cont.) NLO calculation by Klasen & Kramer (2004) resolved photon contributions: factor ~ 3 reduction seems to match with the data (absorption correction suggested by Kaidalov, Khoze et al., 2003)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA26 Summary and Conclusions Diffraction phenomena govern the main part of the cross section in soft hadronic interactions and, surprisingly (?), a substantial part of hard scattering at HERA QCD models based on 2-gluon exchange seem to describe the hard-scale diffractive processes, Regge picture fails in diffractive DIS Strong experimental evidence for gluonic structure of diffractive exchange NLO QCD fit to diffractive data: gluons dominate (~75%). QCD factorization verified at HERA in diffractive DIS (di-jets, charm) Strong breaking of factorization seen with di-jets at the Tevatron, LO/NLO predictions for HERA photoproduction of di-jets possibly not yet fully understood Diffraction (color singlet exchange) continues to be a major challenge for QCD and, possibly, is a key to understand confinement

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA27 BACKup

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA28

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA29 measurements by ZEUS using improved Forward Calorimeter Leading Proton Spectrometer data: (transition region to photoproduction)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA30 Dijets in DIS Diffractive Scattering (cont.)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA31 Photoproduction of Vector Mesons Total cross sections for photoproduction of vector mesons:  show Regge behaviour J  not described by Regge, strong rise of cross section Regge picture Break-down of Pomeron Universality

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA32 The Odderon Odderon invented by Lukaszuk and Nicolescu (1973) to account for possible differences in hadron-hadron and antihadron-hadron scattering at high energies If B non-zero at high energies, i.e. a diffractive amplitude: for Experimental difficulties (due to presence of the Pomeron): Subtraction of 2 large numbers No data on at high energy ! B is „odd“ under charge conjugation A B - A B + Theoretical problem: Odderon possibly suppressed in reactions

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA33 Do we need an Odderon ? HERA is an ideal place to study the Odderon: very high photon-proton center-of-mass energies (up to 300 GeV) can select exculsive processes where the Pomeron cannot contribute (thus measure a potential Odderon contribution directly, no subtraction) theoretical (non-pQCD) model exist for exclusive processes: E. R. Berger, A. Donnachie, H.G. Dosch, W. Kilian, O. Nachtmann, M. Rueter If so, how to find it : Cross section NOT suppressed if state X is a negative-parity baryon (e.g. ) Cross sections for an order of magnitude smaller The „Odderon“ is a firm prediction from pQCD: 3-gluon state with C = P = -1 (see talk by C. Ewerz)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA34 Odderon Search in Multi-Photon Final States Why multi-photon final states ? photons give full energy calorimetric measurement (VLQ, SpaCal) Diploma thesis of T.Golling PhD Thesis of T. Berndt Reactions investigated: to test the diffractive nature of Odderon need large photon-proton energy (meson is emitted into backward part of detector) low mass mesons deposit all their energy in backward region of detector no tracking detector in backward area

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA35 Photon energy via measurement of scattered electron Neutron detector (calorimeter) Exclusive Photoproduction (photoproduction, energy measured via e-tagger) (neutron detected in forward calorimeter) (photons detected in VLQ and SpaCal) No charged particles: nominal interaction point used as origin of photons VLQ Spa Cal E-tag FNC H1

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA36 o H1 is able to detect  0 in VLQ/SpaCal o Neutrons can be detected with good efficiency (signaling N * production) o Acceptance/efficiencies are under control o After cuts against „inelastic“ events some events remain, compatible with expected background o Expected signal from Berger et al. model is not seen Exclusive Photoproduction (cont.)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA37 Event distribution as function of the momentum transfer at the proton vertex. Reason: limited acceptance (goes to 0 as t approaches 0, small for |t | > 0.5 ) Cross section limit given in range 0.02 < |t | < 0.3 GeV 2 = 215 GeV Limit on Exclusive Photoproduction 200 nb expected for diffractive Odderon in same kinematic range ( ) Interpretation of result: Odderon-photon coupling could be smaller than in Berger et. al. 95 % C.L. Odderon intercept is smaller than 0.7 (no longer „diffractive“)

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA38 How to continue ? Summary on the Odderon A 2-gluon color singlet state („Pomeron“) with C=P=+1 seems firmly established in strong interactions to mediate diffractive phenomena, most importantly to produce constant cross sections („BFKL Pomeron“) The C=P=-1 3-gluon color singlet state („Odderon“) is a natural extension of this idea. Detection of Odderon usually plagued by presence of the dominating „background“ from the Pomeron („subtraction of big numbers“) HERA provides a unique possibility to directly measure the Odderon (exclude Pomeron explicitly by quantum numbers), reliable (factor 2) non-perturbative calculations exist. BUT: No signal found yet ! Recent suggestion (Teryaev et al. ICHEP 2002) More Data !! HERA II (new VFPS) C=+1 C=-1 Charge/spin asymmetries in 2-pion photoproduction (at HERA II) interference effects

C. Kiesling, ISMD 2004, July 26-31, 2004, Sonoma State University, California, USA39