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Photon 2003Falk Meissner, LBNL Falk Meissner Lawrence Berkeley National Laboratory For the STAR Collaboration Photon 2003 April 2003 Coherent Electromagnetic.

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Presentation on theme: "Photon 2003Falk Meissner, LBNL Falk Meissner Lawrence Berkeley National Laboratory For the STAR Collaboration Photon 2003 April 2003 Coherent Electromagnetic."— Presentation transcript:

1 Photon 2003Falk Meissner, LBNL Falk Meissner Lawrence Berkeley National Laboratory For the STAR Collaboration Photon 2003 April 2003 Coherent Electromagnetic Interactions in Ultra-Peripheral Heavy Ion Collisions Ultra Peripheral Collisions Exclusive Meson Production Data Sets and Analysis Cross Sections Photon-Photon Interactions Summary

2 Photon 2003Falk Meissner, LBNL ST A R Heavy Ion Collision RHIC (Au Au, 200GeV/nucleon, University of Frankfurt)

3 Photon 2003Falk Meissner, LBNL Ultra-Peripheral Collisions Au X  P Nuclei ‘miss’ geometrically and interact via long range fields Coupling strength Coupling strength  large cross sections Photon-   Z 2 Equivalent Photon Approximation (Weizsaecker-Williams, Fermi) Pomeron- P  A 4/3 (surface) to A 2 (volume) Coherent coupling to extended charge of both nuclei    P > R_A  Small transverse momentum: p T < h/2R A ~ 90 MeV Longitudinal component P L <  h/2R A ~ 6 GeV Quasi Real Photons

4 Photon 2003Falk Meissner, LBNL Exclusive Vector Meson Production  A ’ VA Extrapolate  p ’ Vp to  A ’ VA with Glauber calculation  Large cross sections: 350 mb at s NN 1/2 =130 GeV 590 mb at s NN 1/2 =200 GeV S.Klein, J.Nystrand, Phys. Rev C60 014903 (1999), A. Baltz, S. Klein,J. Nystrand PRL 89, 012301 (2002) Factorize as function of impact parameter Nuclear breakup by single (1n1n) and multiple (xnxn )neutron emission single/multiple neutron emission selects different impact parameters Exclusive  production AuAu  AuAu  0 … with nuclear excitation AuAu  Au*Au*  0

5 Photon 2003Falk Meissner, LBNL Experimental Signature of UPC Two oppositely charged tracks with vertex Low total p T Back-to-back in transverse plane ZDC CTB-Topology Challenge: Trigger ! Topology requirements in central trigger barrel (CTB) Coincident signals from nucl. Breakup in zero degree calorimeters (ZDC)

6 Photon 2003Falk Meissner, LBNL Transverse Momentum & Invariant Mass Spectra 2000: 130 GeV; 9hrs dedicated, 30k triggers 2001: 200 GeV; trigger mix 1.5M topology triggers Peak at low p T  coherent interaction Background model from like-sign pairs normalized to data No neutron signal in ZDC  gold nuclei remain in ground state Signal region: p T <0.15 GeV Topology Trigger AuAu  AuAu  0 200GeV Preliminary

7 Photon 2003Falk Meissner, LBNL Meson Production with Nuclear Break-up Minimum Bias (ZDC) Trigger AuAu  Au*Au*  0 ZDC Response Signal region: p T <0.15 GeV 2000: ~400k triggers L~60/mb 2001: ~1.7M triggers L~250/ mb Amplitude ratio  /r similar to lepton nucleon scattering 200GeV Preliminary

8 Photon 2003Falk Meissner, LBNL Cross Section  (AuAu  Au (*) Au (*)  ) 130 GeV – PRL89, 272303 (2002), 200 GeV Preliminary Luminosity normalization from 7.2b hadronic AuAu cross section Systematic uncertainties ~20% Theory: A. Baltz, S. Klein J. Nystrand Preliminary Total No Breakup xn,xn 1n,1n

9 Photon 2003Falk Meissner, LBNL t-Spectrum Determination of Gold Radius

10 Photon 2003Falk Meissner, LBNL Coherent Interactions in Deuterium-Gold 2003 dAu->  dAu Golden photon torch on d Trigger on the breakup of the deuterium (ZDC) Level0 trigger purity 10% !! 0.9M events First results: clear signal (5 minute testrun) data is in production

11 Photon 2003Falk Meissner, LBNL Two-Photon Interaction Two-Photon Interaction AuAu  Au*Au*e + e - Physics Topics:  Validity of WWA and factorization  Strong field QED Z  ~ 0.6  Large cross section  Z 4  4 Au   e-e- e+e+ 200GeV, 0.25T Magnetic Field Acceptance corrected pair p T Coherent e + e - Pairs p T ~40fm) Identified e+e - via dE/dx only at low momentum p<0.13 GeV Small acceptance (~10 -6 ) for e + e - pairs cross section is peaked in the forward region and at low (non-reconstruct able) invariant mass Manetic field cuts of very low momentum tracks (<60MeV) where cross section is large

12 Photon 2003Falk Meissner, LBNL * Normalized to total hadronic cross- section, 10% systematic error Cross-section Within acceptance 0.14<M ee <0.26 GeV, |  |<1.15 Total 4  cross section 33kB! STAR PRELIMINARY Predictions LO QED S.Klein V.Morozov W Phd. Thesis V. Morozov

13 Photon 2003Falk Meissner, LBNL Summary First measurements for coherent meson production in ultra-peripheral heavy ion collisions with and without nuclear excitationFirst measurements for coherent meson production in ultra-peripheral heavy ion collisions with and without nuclear excitation Au + Au -> Au + Au +   and Au + Au -> Au * + Au * +  . low p T = coherent coupling Cross Sections agree with predictions =>Approximate factorization of rho-production and nuclear excitation =>Weizsaecker-Williams photon flux from large relativistic charges ok. => Glauber extrapolation of  N to  Au ok Cross section for electron-pair production reproduced by LO calculations This is just the beginning; Future analysis topics: –Vector meson spectroscopy,excited states (  *,…) –Multiple VM production –Hard diffraction - higher mass states J/  –Interference of decaying particles RHIC is a good place to study diffractive and electromagnetic processes in heavy ion collisions. Lots of data and physics topics.

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