Advanced

Measurement of deeply virtual Compton scattering at HERA

Aktas, A; Andreev, V; Anthonis, T; Aplin, S; Asmone, A; Astvatsatourov, A; Babaev, A; Backovic, S; Bahr, J and Baghdasaryan, A, et al. (2005) In European Physical Journal C. Particles and Fields 44(1). p.1-11
Abstract
A measurement is presented of elastic deeply virtual Compton scattering gamma* p -> gamma p made using e(+) p collision data corresponding to a luminosity of 46.5 pb(-1), taken with the H1 detector at HERA. The cross section is measured as a function of the photon virtuality, Q(2), the invariant mass of the gamma* p system, W, and for the first time, differentially in the squared momentum transfer at the proton vertex, t, in the kinematic range 2 < Q(2) < 80 GeV2, 30 < W < 140 GeV and vertical bar t vertical bar < 1 GeV2. QCD based calculations at next-to-leading order using generalized parton distributions can describe the data, as can colour dipole model predictions.
Please use this url to cite or link to this publication:
author
, et al. (More)
(Less)
organization
publishing date
type
Contribution to journal
publication status
published
subject
in
European Physical Journal C. Particles and Fields
volume
44
issue
1
pages
1 - 11
publisher
Springer
external identifiers
  • wos:000231950000001
  • scopus:25144480867
ISSN
1434-6044
DOI
10.1140/epjc/s2005-02345-3
language
English
LU publication?
yes
id
0110a9ce-ed06-444f-a2b7-c8d38188a1cc (old id 224224)
date added to LUP
2007-08-17 12:25:17
date last changed
2017-10-22 04:31:02
@article{0110a9ce-ed06-444f-a2b7-c8d38188a1cc,
  abstract     = {A measurement is presented of elastic deeply virtual Compton scattering gamma* p -&gt; gamma p made using e(+) p collision data corresponding to a luminosity of 46.5 pb(-1), taken with the H1 detector at HERA. The cross section is measured as a function of the photon virtuality, Q(2), the invariant mass of the gamma* p system, W, and for the first time, differentially in the squared momentum transfer at the proton vertex, t, in the kinematic range 2 &lt; Q(2) &lt; 80 GeV2, 30 &lt; W &lt; 140 GeV and vertical bar t vertical bar &lt; 1 GeV2. QCD based calculations at next-to-leading order using generalized parton distributions can describe the data, as can colour dipole model predictions.},
  author       = {Aktas, A and Andreev, V and Anthonis, T and Aplin, S and Asmone, A and Astvatsatourov, A and Babaev, A and Backovic, S and Bahr, J and Baghdasaryan, A and Baranov, P and Barrelet, E and Bartel, W and Baudrand, S and Baumgartner, S and Becker, J and Beckingham, M and Behnke, O and Behrendt, O and Belousov, A and Berger, C and Berger, N and Bizot, JC and Boenig, MO and Boudry, V and Bracinik, J and Brandt, G and Brisson, V and Brown, DP and Bruncko, D and Busser, FW and Bunyatyan, A and Buschhorn, G and Bystritskaya, L and Campbell, AJ and Caron, S and Cassol-Brunner, F and Cerny, K and Cerny, V and Chekelian, V and Contreras, JG and Coughlan, JA and Cox, BE and Cozzika, G and Cvach, J and Dainton, JB and Dau, WD and Daum, K and de Boer, Y and Delcourt, B and Demirchyan, R and De Roeck, A and Desch, K and De Wolf, EA and Diaconu, C and Dodonov, V and Dubak, A and Eckerlin, G and Efremenko, V and Egli, S and Eichler, R and Eisele, F and Ellerbrock, M and Elsen, E and Erdmann, W and Essenov, S and Falkewicz, A and Faulkner, PJW and Favart, L and Fedotov, A and Felst, R and Ferencei, J and Finke, L and Fleischer, M and Fleischmann, P and Fleming, YH and Flucke, G and Fomenko, A and Foresti, I and Franke, G and Frisson, T and Gabathuler, E and Garutti, E and Gayler, J and Gerlich, C and Ghazaryan, S and Ginzburgskaya, S and Glazov, A and Glushkov, I and Goerlich, L and Goettlich, M and Gogitidze, N and Gorbounov, S and Goyon, C and Grab, C and Greenshaw, T and Gregori, M and Grell, BR and Grindhammer, G and Gwilliam, C and Haidt, D and Hajduk, L and Haller, J and Hansson, Magnus and Heinzelmann, G and Henderson, RCW and Henschel, H and Henshaw, O and Herrera, G and Hildebrandt, M and Hiller, KH and Hoffmann, D and Horisberger, R and Hovhannisyan, A and Ibbotson, M and Ismail, M and Jacquet, M and Janauschek, L and Janssen, X and Jemanov, V and Jönsson, Leif and Johnson, DP and Jung, Hannes and Kapichine, M and Katzy, J and Keller, N and Kenyon, IR and Kiesling, C and Klein, M and Kleinwort, C and Klimkovich, T and Kluge, T and Knies, G and Knutsson, Albert and Korbel, V and Kostka, P and Koutouev, R and Krastev, K and Kretzschmar, J and Kropivnitskaya, A and Kruger, K and Kuckens, J and Landon, MPJ and Lange, W and Lastovicka, T and Lastovicka-Medin, G and Laycock, P and Lebedev, A and Leissner, B and Lendermann, V and Levonian, S and Lindfeld, L and Lipka, K and List, B and Lobodzinska, E and Loktionova, N and Lopez-Fernandez, R and Lubimov, V and Lucaci-Timoce, AI and Lueders, H and Luke, D and Lux, T and Lytkin, L and Makankine, A and Malden, N and Malinovski, E and Mangano, S and Marage, P and Marshall, R and Martisikova, M and Martyn, HU and Maxfield, SJ and Meer, D and Mehta, A and Meier, K and Meyer, AB and Meyer, H and Meyer, J and Mikocki, S and Milcewicz-Mika, I and Milstead, D and Mladenov, D and Mohamed, A and Moreau, F and Morozov, A and Morris, JV and Mozer, MU and Muller, K and Murin, P and Nankov, K and Naroska, B and Naumann, T and Newman, PR and Niebuhr, C and Nikiforov, A and Nikitin, D and Nowak, G and Nozicka, M and Oganezov, R and Olivier, B and Olsson, JE and Osman, Sakar and Ozerov, D and Palichik, V and Panagoulias, I and Papadopoulou, T and Pascaud, C and Patel, GD and Peez, M and Perez, E and Perez-Astudillo, D and Perieanu, A and Petrukhin, A and Pitzl, D and Placakyte, R and Portheault, B and Povh, B and Prideaux, P and Raicevic, N and Reimer, P and Rimmer, A and Risler, C and Rizvi, E and Robmann, P and Roland, B and Roosen, R and Rostovtsev, A and Rurikova, Z and Rusakov, S and Salvaire, F and Sankey, DPC and Sauvan, E and Schatzel, S and Schilling, FP and Schmidt, S and Schmitt, S and Schmitz, C and Schoeffel, L and Schoning, A and Schroder, V and Schultz-Coulon, HC and Sedlak, K and Sefkow, F and Sheviakov, I and Shtarkov, LN and Sirois, Y and Sloan, T and Smirnov, P and Soloviev, Y and South, D and Spaskov, V and Specka, A and Stella, B and Stiewe, J and Strauch, I and Straumann, U and Tchoulakov, V and Thompson, G and Thompson, PD and Tomasz, F and Traynor, D and Truol, P and Tsakov, I and Tsipolitis, G and Tsurin, I and Turnau, J and Tzamariudaki, E and Urban, M and Usik, A and Utkin, D and Valkar, S and Valkarova, A and Vallee, C and Van Mechelen, P and Van Remortel, N and Trevino, AV and Vazdik, Y and Veelken, C and Vest, A and Vinokurova, S and Volchinski, V and Vujicic, B and Wacker, K and Wagner, J and Weber, G and Weber, R and Wegener, D and Werner, C and Werner, N and Wessels, M and Wessling, B and Wigmore, C and Wissing, C and Wolf, R and Wunsch, E and Xella, S and Yan, W and Yeganov, V and Zacek, J and Zalesak, J and Zhang, Z and Zhelezov, A and Zhokin, A and Zimmermann, J and Zimmermann, T and Zohrabyan, H and Zomer, F},
  issn         = {1434-6044},
  language     = {eng},
  number       = {1},
  pages        = {1--11},
  publisher    = {Springer},
  series       = {European Physical Journal C. Particles and Fields},
  title        = {Measurement of deeply virtual Compton scattering at HERA},
  url          = {http://dx.doi.org/10.1140/epjc/s2005-02345-3},
  volume       = {44},
  year         = {2005},
}