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.

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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 Melzer-Pellmann DESY Hamburg, ZEUS DIS 2007 April 16 th - 20 th, 2007

Isabell-A. Melzer-Pellmann DIS Outline Introduction Selection of diffractive events Reconstruction of D* Diffractive D* in photoproduction (Q 2  0) (new result) Comparison to inclusive D* Summary and Outlook

Isabell-A. Melzer-Pellmann DIS Diffractive DIS at HERA Deep Inelastic Scattering at HERA: diffraction contributes substantially to the cross section (  10% of visible low-x events) Inclusive DIS: Probe partonic structure of the proton  F 2 Diffractive DIS: Probe structure of the exchanged color singlet  F 2 D X X Q 2 : 4-momentum exchange W:  p centre of mass energy x: fraction of p momentum carried by struck quark x IP : fraction of p momentum carried by the Pomeron (IP)  : fraction of IP momentum carried by struck quark p can stay intact or dissociate

Isabell-A. Melzer-Pellmann DIS Inclusive diffraction and factorisation theorem X Diffractive structure function: QCD Factorisation:  D = universal diffractive PDF  hard ME Factorisation proven for DDIS by Collins. Rapidity gap due to exchange of colorless object with vacuum quantum numbers

Isabell-A. Melzer-Pellmann DIS Reminder: Diffractive D* in DIS  inematic range:   1.5 <  Q 2 < 200 GeV 2  0.02 < y < 0.7   < 0.8 NLO calculation: HVQDIS with:  ACTW fit B (gluon dominated fit to H1 and ZEUS incl. diffr. DIS and ZEUS diffr.  P data) Phys.Rev.D (1999) Nucl.Phys.B672 (2003),3  good agreement of NLO calculations with data  confirms QCD factorisation in DDIS  data used to constrain gluons in ZEUS LPS fit D* cuts:  p T (D*) > 1.5 GeV  |  (D*)| < 1.5

Isabell-A. Melzer-Pellmann DIS NLO DGLAP FIT  PDF  Gluon dominated  quark density well constrained  larger gluon uncertainty at high z (fractional momentum of parton) Diffractive PDFs:  assume Regge factorisation  parametrise flavour singlet and gluons at Q 2 = 2 or 3 GeV 2  evolve with NLO DGLAP and fit ZEUS LPS+charm fit: From incl. diffr. data in Eur. Phys. J. C38 (2004) and DIS charm data in Nucl.Phys.B672 (2003),3 H fits: Eur. Phys. J. C48 (2006)

Isabell-A. Melzer-Pellmann DIS Dijet cross section factor 3-10 lower than expected using different HERA PDFs Comparison to Tevatron pp γ*p HERA: DIS (Q 2 >5GeV 2 ) and direct photoproduction (Q 2 ≃ 0):  photon directly involved in hard scattering Resolved photoproduction:  photon fluctuates into hadronic system, which takes part in hadronic scattering TEVATRON and LHC: interaction of two hadronic systems

Isabell-A. Melzer-Pellmann DIS Comparison to Tevatron Phys.Lett.B567 (2003),61 Suppression due to secondary interactions by add. spectators Test at HERA with resolved part of photoproduction Kaidalov et al.: rescaling of resolved part by 0.34 (for dijets, less for charm due to enhancement of direct part) Dijet and charm data: Hard scale: E T of jet or charm mass  tests of universality of PDF’s (=QCD factorisation)  test of DGLAP evolution

Isabell-A. Melzer-Pellmann DIS Diffractive D*(2010) in  P: diffractive selection Diffractive selection with rapidity gap method:   max < 3.0  x IP <  subset for cleaner diffr. events: x IP < 0.01 Strong reduction of non-diffractive background by cut on forward plug calorimeter (FPC). diffractive shoulder non-diffractive events  max rapidity gap FPC e p

Isabell-A. Melzer-Pellmann DIS Diffractive D*(2010) in  P: D* selection D*(2010) ± : reconstructed using decay chain: D*(2010) + D 0  + Event selection:   inematic range:   Q 2 < 1 GeV 2  130 < W < 300 GeV  D* cuts:  p T (D*) > 1.9 GeV  |  (D*)| < 1.6 (x IP < 0.01: 204 ± 20 events) x IP < 0.035: 458 ± 30 events K- +K- + soft pion Identification of D* with mass difference method. Background estimated using wrong charge combinations.

Isabell-A. Melzer-Pellmann DIS Diffractive D*(2010) in  P 90% of events produced in direct process (due to color enhancement), only 10% resolved (including flavor excitation).  good statistics to check factorisation in direct  P  too poor statistics to check factorisation for resolved  P Monte Carlo (for corrections): RAPGAP 2.08/18 with H1 FIT2 LO NLO calculation: FMNR with the following diffractive PDFs:  H1 fit 2006 A and B  ZEUS-LPS + charm fit Photon PDF: GRV-G-HO

Isabell-A. Melzer-Pellmann DIS Diffractive D*:  P x IP < (new) 0 0  supports QCD factorisation in direct  P  good agreement of all NLO calculations with data  large error in theory mainly due to scale variations

Isabell-A. Melzer-Pellmann DIS Diffractive D*:  P x IP < 0.01 (new) x IP < 0.01: cleaner events: Reggeon contribution negligible, non-diffr. background reduced 0 0  supports QCD factorisation in direct  P  good agreement of all NLO calculations with data  large error in theory mainly due to scale variations

Isabell-A. Melzer-Pellmann DIS Diffractive D*:  P comparison to inclusive D* (new) Calculation of ratio diffractive (x IP <0.035) /inclusive:  Perform exactly the same analysis with/without diffractive cuts  Use exactly the same program (FMNR) only with different PDFs  systematic errors in analysis cancel out  NLO uncertainties cancel out  more precise test of PDFs inclusive Monte Carlo (for corrections): HERWIG inclusive NLO calculation:  FMNR with CTEQ5M

Isabell-A. Melzer-Pellmann DIS Diffractive D*:  P comparison to inclusive D* (new!) Ratio diffractive/inclusive D* (R D ) for x IP <0.035 : Ratio from NLO calculations: H Fit A: 6.0% H Fit B: 5.7% LPS Fit: 5.8% Very good agreement: strongly supports QCD factorisation for direct  P R D (D*)= 5.7 ± 0.5 (stat) (syst) ± 0.3 (p.d.) % + 0.7

Isabell-A. Melzer-Pellmann DIS Diffractive D*:  P and DIS Ratio R D for x IP <  visible cross section: 6% of D* are produced diffractively  no Q 2 dependence observed

Isabell-A. Melzer-Pellmann DIS Conclusions and Outlook Test of diffractive PDFs with ep charm (D*) data: Data very well described by NLO  about 6% of D* are produced diffractively for DIS and  P.  DIS:  NLO QCD calculations with diffr. PDFs describe data  QCD factorisation confirmed   P:  NLO QCD calculations with diffr. PDFs describe D* data  strongly supports QCD factorisation for direct  P  too large uncertainties to draw conclusion for resolved  P (contribution only about 10 %) Outlook: need dijet analysis for conclusion on resolved  P  new ZEUS results presented by Y. Yamazaki

Isabell-A. Melzer-Pellmann DIS BACKUP

Isabell-A. Melzer-Pellmann DIS Event selection: LPS, M x and LRG method Diffr. Non-diffr. (D, c, b from a fit to data) - flat vs ln M x 2 for diffractive events - exponentially falling for decreasing M x for non-diffractive events LRG M x LPS Use of leading proton spectrometer (LPS):  t-measurement  access to high x IP range  free of p-dissociation background  small acceptance  low statistics Photon diffractive dissociation p-dissociation background subtracted for mass of diss. p M N > 2.3 GeV events with large rapidity gap (LRG): p-dissociation background for M N < 1.6 GeV,  |t|<1 GeV 2 ZEUS gap ZEUS

Isabell-A. Melzer-Pellmann DIS Event selection with M x method Diffr. Non-diffr. (D, c, b from a fit to data) - flat vs ln M x 2 for diffractive events - exponentially falling for decreasing M x for non-diffractive events Forward Plug Calorimeter (FPC): CAL acceptance extended in pseudorapidity from η=4 to η=5  higher M x (a factor 1.7) and lower W  p-dissociation events: for M N > 2.3 GeV energy in FPC > 1GeV recognized and rejected

Isabell-A. Melzer-Pellmann DIS Event selection with LPS  t-measurement  x IP - measurement (access to high x IP range)  free of p-dissociation background  small acceptance  low statistics Photon diffractive dissociation