H. Henschel
Swiss National Science Foundation
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Publication
Featured researches published by H. Henschel.
Journal of Instrumentation | 2010
H. Abramowicz; Angel Abusleme; K. Afanaciev; Jonathan Aguilar; Prasoon Ambalathankandy; P. Bambade; M. Bergholz; I. Bozovic-Jelisavcic; E. Castro; G. A. Chelkov; Cornelia Coca; W. Daniluk; A. Dragone; L. Dumitru; K. Elsener; Igor Emeliantchik; T. Fiutowski; M. I. Gostkin; C. Grah; G. Grzelak; Gunter Haller; H. Henschel; Alexandr Ignatenko; M. Idzik; Kazutoshi Ito; T. Jovin; Eryk Kielar; Jerzy Kotula; Zinovi Krumstein; Szymon Kulis
Two special calorimeters are foreseen for the instrumentation of the very forward region of the ILC detector, a luminometer designed to measure the rate of low angle Bhabha scattering events with a precision better than 10?3 and a low polar angle calorimeter, adjacent to the beam-pipe. The latter will be hit by a large amount of beamstrahlung remnants. The amount and shape of these depositions will allow a fast luminosity estimate and the determination of beam parameters. The sensors of this calorimeter must be radiation hard. Both devices will improve the hermeticity of the detector in the search for new particles. Finely segmented and very compact calorimeters will match the requirements. Due to the high occupancy fast front-end electronics is needed. The design of the calorimeters developed and optimised with Monte Carlo simulations is presented. Sensors and readout electronics ASICs have been designed and prototypes are available. Results on the performance of these major components are summarised.
ieee nuclear science symposium | 2006
C. Grah; K. Afanaciev; I. Emeliantchek; U. Harder; H. Henschel; Alexandr Ignatenko; E. Kouznetsova; W. Lange; Wolfgang Lohmann; M. Ohlerich; R. Schmidt
Polycrystalline artificial diamond produced by chemical vapor deposition (pCVD) is a possible sensor material for the beam calorimeter of the ILC. The requirements are linearity over a large range of flux and radiation hardness against a total ionizing dose of several MGy per year of operation. A hadron test beam at the CERN PS was used to study the linearity of the response of pCVD sensors. An electron test beam at the S-DALINAC was used to measure the charge collection distance (CCD) as a function of the absorbed dose up to several MGy. Current-voltage characteristics of these sensors were measured before and after the irradiation as well as the dependence of the CCD on the applied electric field before and after the irradiation.
Journal of Instrumentation | 2015
H. Abramowicz; A. Abusleme; K. Afanaciev; J. Aguilar; E. Alvarez; D. Avila; Y. Benhammou; L. Bortko; O. Borysov; M. Bergholz; I. Bozovic-Jelisavcic; E. Castro; G. A. Chelkov; C. Coca; W. Daniluk; L. Dumitru; K. Elsener; V. Fadeyev; M. Firlej; E. Firu; T. Fiutowski; V. Ghenescu; M. I. Gostkin; H. Henschel; M. Idzik; A. Ishikawa; S. Kananov; S. Kollowa; S. Kotov; J. Kotula
Detector-plane prototypes of the very forward calorimetry of a future detector at an e+e- collider have been built and their performance was measured in an electron beam. The detector plane comprises silicon or GaAs pad sensors, dedicated front-end and ADC ASICs, and an FPGA for data concentration. Measurements of the signal-to-noise ratio and the response as a function of the position of the sensor are presented. A deconvolution method is successfully applied, and a comparison of the measured shower shape as a function of the absorber depth with a Monte-Carlo simulation is given.
Journal of Instrumentation | 2015
O. Karacheban; K. Afanaciev; M. Hempel; H. Henschel; W. Lange; J. Leonard; I. Levy; W. Lohmann; S. Schuwalow
Extremely radiation hard sensors are needed in particle physics experiments to instrument the region near the beam pipe. Examples are beam halo and beam loss monitors at the Large Hadron Collider, FLASH or XFEL. Currently artificial diamond sensors are widely used. In this paper single crystal sapphire sensors are considered as a promising alternative. Industrially grown sapphire wafers are available in large sizes, are of low cost and, like diamond sensors, can be operated without cooling. Here we present results of an irradiation study done with sapphire sensors in a high intensity low energy electron beam. Then, a multichannel direction-sensitive sapphire detector stack is described. It comprises 8 sapphire plates of 1 cm^2 size and 525 micro m thickness, metallized on both sides, and apposed to form a stack. Each second metal layer is supplied with a bias voltage, and the layers in between are connected to charge-sensitive preamplifiers. The performance of the detector was studied in a 5 GeV electron beam. The charge collection efficiency measured as a function of the bias voltage rises with the voltage, reaching about 10 % at 950 V. The signal size obtained from electrons crossing the stack at this voltage is about 22000 e, where e is the unit charge. The signal size is measured as a function of the hit position, showing variations of up to 20 % in the direction perpendicular to the beam and to the electric field. The measurement of the signal size as a function of the coordinate parallel to the electric field confirms the prediction that mainly electrons contribute to the signal. Also evidence for the presence of a polarisation field was observed.
ieee nuclear science symposium | 2007
C. Grah; K. Afanaciev; P. Bernitt; G. Chelkov; J. Gajewski; R. Heller; H. Henschel; Alexandr Ignatenko; Z. Krumshteyn; S. Kulis; W. Lange; Wolfgang Lohmann; M. Ohlerich; A. Rosco; A. Sapronov; R. Schmidt; S. Schuwalow
The beam calorimeter in the forward region of the ILC detectors will be hit by a large amount of electron-positron pairs originating from beamstrahlung, a new phenomenon at the ILC. The by ionization deposited energy in the BeamCal sensor planes can be as high as 10 MGy per year of operation. The FCAL collaboration investigates different alternatives as possible sensor materials: polycrystalline and single crystal CVD diamond and GaAs. The investigation of these materials includes the measurement of the charge collection distance and the radiation hardness against irradiation with 10 MeV electrons in a test beam to doses of several MGy.
European Physical Journal C | 2018
H. Abramowicz; H. Henschel; T. Lesiak; M. Orlandea; S. Kananov; I. Smiljanic; A. Abusleme; Ignatenko, M.Idzik{
A prototype of a luminometer, designed for a future
arXiv: Instrumentation and Detectors | 2014
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Archive | 2011
},A.; I. Levy; E. Firu; Wolfgang Lohmann; J. Kotula; A. Zhemchugov; Sz. Kulis; A. Moszczynski; S. Lukić; Tobias N. Wistisen; K. Afanaciev; M. I. Gostkin; V. Kruchonok; M. Hempel; A. Levy; D. Dannheim; I.-S. Zgura; U.I. Uggerhøj; O. Karacheban; B. Pawlik; A. Neagu; D. Kozhevnikov; P. Smolyanskiy
e^+e^-
Archive | 2011
H. Abramowicz; H. Henschel; Yosuke Takubo; T.S. Zgura; M. Orlandea; S. Kananov; I. Smiljanic; A. Abusleme; J. Aguilar; G. Haller; R. Schwartz; A. Sailer; A. Dragone; E. Firu; W. Lohmann; J. Kotula; I. Sadeh; Eryk Kielar; S. Lukić; A. Olshevski; K. Afanaciev; M. I. Gostkin; S. Schuwalow; K. Swientek; W. Daniluk; A. Levy; E. Alvarez; U. Nauenberg; O. Novgorodova; K. Oliwa
