Prof Roman Walczak

Forward-jet production in deep inelastic ep scattering at HERA

European Physical Journal C 52:3 (2007) 515-530

Authors:

S Chekanov, M Derrick, S Magill, B Musgrave, D Nicholass, J Repond, R Yoshida, MCK Mattingly, M Jechow, N Pavel, AG Yagües Molina, S Antonelli, P Antonioli, G Bari, M Basile, L Bellagamba, M Bindi, D Boscherini, A Bruni, G Bruni, L Cifarelli, F Cindolo, A Contin, M Corradi, S De Pasquale, G Iacobucci, A Margotti, R Nania, A Polini, G Sartorelli, A Zichichi, D Bartsch, I Brock, H Hartmann, E Hilger, HP Jakob, M Jüngst, OM Kind, AE Nuncio-Quiroz, E Paul, R Renner, U Samson, V Schönberg, R Shehzadi, M Wlasenko, NH Brook, GP Heath, JD Morris, M Capua, S Fazio, A Mastroberardino, M Schioppa, G Susinno, E Tassi, JY Kim, KJ Ma, ZA Ibrahim, B Kamaluddin, WAT Wan Abdullah, Y Ning, Z Ren, F Sciulli, J Chwastowski, A Eskreys, J Figiel, A Galas, M Gil, K Olkiewicz, P Stopa, L Zawiejski, L Adamczyk, T Bołd, I Grabowska-Bołd, D Kisielewska, J Łukasik, M Przybycień, L Suszycki, A Kotański, W Słomiński, V Adler, U Behrens, I Bloch, C Blohm, A Bonato, K Borras, R Ciesielski, N Coppola, A Dossanov, V Drugakov, J Fourletova, A Geiser, D Gladkov, P Göttlicher, J Grebenyuk, I Gregor, T Haas, W Hain, C Horn, A Hüttmann, B Kahle

Abstract:

Forward jet cross sections have been measured in neutral current deep inelastic scattering at low Bjorken-x with the ZEUS detector at HERA using an integrated luminosity of 81.8 pb-1. Measurements are presented for inclusive forward jets as well as for forward jets accompanied by a dijet system. The explored phase space, with jet pseudorapidity up to 4.3 is expected to be particularly sensitive to the dynamics of QCD parton evolution at low x. The measurements are compared to fixed-order QCD calculations and to leading-order parton-shower Monte Carlo models. © 2007 Springer-Verlag / Società Italiana di Fisica.

The design and performance of the ZEUS micro vertex detector

Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 581:3 (2007) 656-686

Authors:

A Polini, I Brock, S Goers, A Kappes, UF Katz, E Hilger, J Rautenberg, A Weber, A Mastroberardino, E Tassi, V Adler, LAT Bauerdick, I Bloch, T Haas, U Klein, U Koetz, G Kramberger, E Lobodzinska, R Mankel, J Ng, D Notz, MC Petrucci, B Surrow, G Watt, C Youngman, W Zeuner, C Coldewey, R Heller, E Gallo, T Carli, V Chiochia, D Dannheim, E Fretwurst, A Garfagnini, R Klanner, B Koppitz, J Martens, M Milite, K Tokushuku, I Redondo, H Boterenbrood, E Koffeman, P Kooijman, E Maddox, H Tiecke, M Vazquez, J Velthuis, L Wiggers, RCE Devenish, M Dawson, J Ferrando, G Grzelak, K Korcsak-Gorzo, T Matsushita, K Oliver, P Shield, R Walczak, A Bertolin, E Borsato, R Carlin, F Dal Corso, A Longhin, M Turcato, T Fusayasu, R Hori, T Kohno, S Shimizu, HE Larsen, R Sacchi, A Staiano, M Arneodo, M Ruspa, J Butterworth, C Gwenlan, J Fraser, D Hayes, M Hayes, J Lane, D Nicholass, G Nixon, M Postranecky, M Sutton, M Warren

Abstract:

In order to extend the tracking acceptance, to improve the primary and secondary vertex reconstruction and thus enhancing the tagging capabilities for short lived particles, the ZEUS experiment at the HERA Collider at DESY installed a silicon strip vertex detector. The barrel part of the detector is a 63 cm long cylinder with silicon sensors arranged around an elliptical beampipe. The forward part consists of four circular shaped disks. In total just over 200k channels are read out using 2.9 m2 of silicon. In this report a detailed overview of the design and construction of the detector is given and the performance of the completed system is reviewed. © 2007 Elsevier B.V. All rights reserved.

High-ET dijet photoproduction at HERA

Physical Review D - Particles, Fields, Gravitation and Cosmology 76:7 (2007)

Authors:

S Chekanov, M Derrick, S Magill, B Musgrave, D Nicholass, J Repond, R Yoshida, MCK Mattingly, M Jechow, N Pavel, AG Yagües Molina, S Antonelli, P Antonioli, G Bari, M Basile, L Bellagamba, M Bindi, D Boscherini, A Bruni, G Bruni, L Cifarelli, F Cindolo, A Contin, M Corradi, S De Pasquale, G Iacobucci, A Margotti, R Nania, A Polini, G Sartorelli, A Zichichi, D Bartsch, I Brock, S Goers, H Hartmann, E Hilger, HP Jakob, M Jüngst, OM Kind, AE Nuncio-Quiroz, E Paul, R Renner, U Samson, V Schönberg, R Shehzadi, M Wlasenko, NH Brook, GP Heath, JD Morris, M Capua, S Fazio, A Mastroberardino, M Schioppa, G Susinno, E Tassi, JY Kim, KJ Ma, ZA Ibrahim, B Kamaluddin, WAT Wan Abdullah, Y Ning, Z Ren, F Sciulli, J Chwastowski, A Eskreys, J Figiel, A Galas, M Gil, K Olkiewicz, P Stopa, L Zawiejski, L Adamczyk, T Bołd, I Grabowska-Bołd, D Kisielewska, J Łukasik, M Przybycień, L Suszycki, A Kotański, W Słomiński, V Adler, U Behrens, I Bloch, C Blohm, A Bonato, K Borras, R Ciesielski, N Coppola, A Dossanov, V Drugakov, J Fourletova, A Geiser, D Gladkov, P Göttlicher, J Grebenyuk, I Gregor, T Haas, W Hain, C Horn, A Hüttmann

Abstract:

The cross section for high-ET dijet production in photoproduction has been measured with the ZEUS detector at HERA using an integrated luminosity of 81.8pb-1. The events were required to have a virtuality of the incoming photon, Q2, of less than 1GeV2 and a photon-proton center-of-mass energy in the range 14220GeV and ETjet2>15GeV and pseudorapidity (with respect to the proton beam direction) requirements of -1<ηjet1,2<3, with at least one of the jets satisfying -1<ηjet<2.5. The measurements show sensitivity to the parton distributions in the photon and proton and to effects beyond next-to-leading order in QCD. Hence these data can be used to constrain further the parton densities in the proton and photon. © 2007 The American Physical Society.

The optical alignment system of the ZEUS microvertex detector

Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 580:3 (2007) 1227-1242

Authors:

K Korcsak-Gorzo, G Grzelak, K Oliver, M Dawson, R Devenish, J Ferrando, T Matsushita, P Shield, R Walczak

Abstract:

The laser alignment system of the ZEUS microvertex detector is described. The detector was installed in 2001 as part of an upgrade programme in preparation for the second phase of electron-proton physics at the HERA collider. The alignment system monitors the position of the vertex detector support structure with respect to the central tracking detector using semi-transparent amorphous-silicon sensors and diode lasers. The system is fully integrated into the general environmental monitoring of the ZEUS detector and data has been collected over a period of 5 years. The primary aim of defining periods of stability for track-based alignment has been achieved and the system is able to measure movements of the support structure to a precision around 10 μ m. © 2007 Elsevier B.V. All rights reserved.

The design and performance of the ZEUS Micro Vertex detector

(2007)

Authors:

A Polini, I Brock, S Goers, A Kappes, UF Katz, E Hilger, J Rautenberg, A Weber, A Mastroberardino, E Tassi, V Adler, LAT Bauerdick, I Bloch, T Haas, U Klein, U Koetz, G Kramberger, E Lobodzinska, R Mankel, J Ng, D Notz, MC Petrucci, B Surrow, G Watt, C Youngman, W Zeuner, C Coldewey, R Heller, E Gallo, T Carli, V Chiochia, D Dannheim, E Fretwurst, A Garfagnini, R Klanner, B Koppitz, J Martens, M Milite, K Tokushuku, I Redondo, H Boterenbrood, E Koffeman, P Kooijman, E Maddox, H Tiecke, M Vazquez, J Velthuis, L Wiggers, RCE Devenish, M Dawson, J Ferrando, G Grzelak, K Korcsak-Gorzo, T Matsushita, K Oliver, P Shield, R Walczak, A Bertolin, E Borsato, R Carlin, F Dal Corso, A Longhin, M Turcato, T Fusayasu, R Hori, T Kohno, S Shimizu, HE Larsen, R Sacchi, A Staiano, M Arneodo, M Ruspa, J Butterworth, C Gwenlan, J Fraser, D Hayes, M Hayes, J Lane, G Nixon, M Postranecky, M Sutton, M Warren