Christian Zeitnitz
University of Wuppertal
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Featured researches published by Christian Zeitnitz.
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment | 1994
B. Andrieu; F. Brasse; N. Sahlmann; H.P. Wellisch; N. Huot; T. Carli; Y. Sirois; P. Ribarics; J. Feltesse; C. Vallée; S. Egli; H.B. Pyo; A. Nau; H.T. Blume; J. Duboc; P. Schacht; B. Delcourt; J. Zacek; R. Haydar; M. Vecko; U. Lenhardt; H. Kolanoski; L. Del Buono; T.P. Yiou; J. Turnau; M. Haguenauer; H. Jung; D. Lüers; M. Goldberg; W. Krasny
Results are presented on the energy calibration of the H1 liquid argon calorimeter modules with electrons from a test beam in the energy range of 3.7 GeV to 80 GeV. The method to determine the calibration for the Hl experiment from these measurements by the use of detailed simulations is described . Various systematic checks of this calibration are given. The calorimeter response is uniform in space within ±1% and linear with energy within ±1%. An average energy resolution of about 11.5%/ E [GeV] is achieved .
Journal of Instrumentation | 2010
A. Afonin; A. V. Akimov; T. Barillari; V. Bezzubov; M. Blagov; H. M. Braun; D. Bruncko; Sergey Chekulaev; A. Cheplakov; R. Degele; S. P. Denisov; V. Drobin; P. Eckstein; V. Ershov; V. N. Evdokimov; J. Ferencei; V. Fimushkin; A. Fischer; H. Futterschneider; V. Garkusha; A. Glatte; C. Handel; J. Huber; N. Javadov; M. Y. Kazarinov; A. Khoroshilov; A. E. Kiryunin; E. Kladiva; M. Kobel; A. A. Komar
In this paper it is shown that a measurement of the relative luminosity changes at the LHC may be obtained by analysing the currents drawn from the high voltage power supplies of the electromagnetic section of the forward calorimeter of the ATLAS detector. The method was verified with a reproduction of a small section of the ATLAS forward calorimeter using proton beams of known beam energies and variable intensities at the U-70 accelerator at IHEP in Protvino, Russia. The experimental setup and the data taking during a test beam run in April 2008 are described in detail. A comparison of the measured high voltage currents with reference measurements from beam intensity monitors shows a linear dependence on the beam intensity. The non-linearities are measured to be less than 0.5% combining statistical and systematic uncertainties.
Journal of Instrumentation | 2011
K. Becker; J. Boek; S. Kersten; P. Kind; P. Mättig; L Püllen; Christian Zeitnitz
The upgrade of the ATLAS experiment for the High Luminosity LHC (HL-LHC) will include a new pixel detector. A completely new detector control system (DCS) for this pixel detector will be required in order to cope with the substantial increase in radiation at the HL-LHC. The DCS has to have a very high reliability and all components installed within the detector volume have to be radiationhard. This will ensure a safe operation of the pixel detector and the experiment. A further design constraint is the minimization of the used material and cables in order to limit the impact on the tracking performance to a minimum. To meet these requirements we propose a DCS network which consists of a DCS chip and a DCS controller. In the following we present the development of the first prototypes for the DCS chip and the DCS controller with a special focus on the communication interface, radiation hardness and robustness against single event upsets.
