Performance and Molière radius measurements using a compact prototype of LumiCal in an electron test beam

Abramowicz, H.; Henschel, H.; Kacarevic, G.; Kananov, S.; Abusleme, A.; Moron, J.; Levy, I.; Lange, Wolfgang; Firu, E.; Lohmann, W.; Kotula, J.; Zhemchugov, A.; Lesiak, T.; Moszczynski, A.; Afanaciev, K.; Gostkin, M.; Neagu, A. T.; Daniluk, W.; Dannheim, D.; Vukasinovic, N.; Karacheban, O.; Pawlik, B.; Zgura, I. S.; Demichev, M.; Yamamoto, H.; Fiutowski, T.; Levy, Aharon; Schuwalow, S.; Ghenescu, V.; Linssen, L.; Leonard, J.; Sicking, E.; Kotov, S.; Benhammou, Y.; Zawiejski, L.; Kulis, Sz.; Ignatenko, A.; Idzik, M.; Elsener, K.; Joffe, A.; Turbiarz, B.; Klempt, W.; Borysov, O.; Bozovic-Jelisavcic, I.; Preda, T.; Wojton, T.; Sailer, A.; Schumm, B.; Borysova, M.; Firlej, M.; Kruchonak, U.; Swientek, K.; Ishikawa, A.; Hempel, M.

doi:10.1140/epjc/s10052-019-7077-9

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000424311 041__ $$aEnglish
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000424311 1001_ $$aAbramowicz, H.$$b0
000424311 245__ $$aPerformance and Molière radius measurements using a compact prototype of LumiCal in an electron test beam
000424311 260__ $$aHeidelberg$$bSpringer8034$$c2019
000424311 3367_ $$2DRIVER$$aarticle
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000424311 520__ $$aA new design of a detector plane of submillimetrethickness for an electromagnetic samplingcalorimeter is presented. It is intended to be used in the luminometersLumiCal and BeamCal in future linear e+e− colliderexperiments. The detector planes were produced utilisingnovel connectivity scheme technologies. They wereinstalled in a compact prototype of the calorimeter and testedat DESY with an electron beam of energy 1–5 GeV. Theperformance of a prototype of a compact LumiCal comprisingeight detector planes was studied. The effective Molièreradius at 5 GeV was determined to be (8.1 ± 0.1 (stat) ±0.3 (syst)) mm, a value well reproduced by the Monte Carlo(MC) simulation (8.4 ± 0.1) mm. The dependence of theeffective Molière radius on the electron energy in the range1–5 GeV was also studied. Good agreement was obtainedbetween data and MC simulation.
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000424311 7001_ $$aAbusleme, A.$$b1
000424311 7001_ $$aAfanaciev, K.$$b2
000424311 7001_ $$aBenhammou, Y.$$b3
000424311 7001_ $$aBorysov, O.$$b4
000424311 7001_ $$aBorysova, M.$$b5
000424311 7001_ $$aBozovic-Jelisavcic, I.$$b6
000424311 7001_ $$aDaniluk, W.$$b7
000424311 7001_ $$aDannheim, D.$$b8
000424311 7001_ $$aDemichev, M.$$b9
000424311 7001_ $$aElsener, K.$$b10
000424311 7001_ $$aFirlej, M.$$b11
000424311 7001_ $$aFiru, E.$$b12
000424311 7001_ $$aFiutowski, T.$$b13
000424311 7001_ $$aGhenescu, V.$$b14
000424311 7001_ $$aGostkin, M.$$b15
000424311 7001_ $$aHempel, M.$$b16
000424311 7001_ $$0P:(DE-H253)PIP1002422$$aHenschel, H.$$b17
000424311 7001_ $$aIdzik, M.$$b18
000424311 7001_ $$0P:(DE-H253)PIP1006454$$aIgnatenko, A.$$b19
000424311 7001_ $$aIshikawa, A.$$b20
000424311 7001_ $$aJoffe, A.$$b21
000424311 7001_ $$aKacarevic, G.$$b22
000424311 7001_ $$aKananov, S.$$b23
000424311 7001_ $$0P:(DE-H253)PIP1013409$$aKaracheban, O.$$b24
000424311 7001_ $$aKlempt, W.$$b25
000424311 7001_ $$aKotov, S.$$b26
000424311 7001_ $$aKotula, J.$$b27
000424311 7001_ $$aKruchonak, U.$$b28
000424311 7001_ $$aKulis, Sz.$$b29
000424311 7001_ $$0P:(DE-H253)PIP1002113$$aLange, Wolfgang$$b30
000424311 7001_ $$0P:(DE-H253)PIP1018031$$aLeonard, J.$$b31
000424311 7001_ $$aLesiak, T.$$b32
000424311 7001_ $$0P:(DE-H253)PIP1002090$$aLevy, Aharon$$b33$$eCorresponding author
000424311 7001_ $$aLevy, I.$$b34
000424311 7001_ $$aLinssen, L.$$b35
000424311 7001_ $$0P:(DE-H253)PIP1003723$$aLohmann, W.$$b36
000424311 7001_ $$aMoron, J.$$b37
000424311 7001_ $$aMoszczynski, A.$$b38
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000424311 7001_ $$aVukasinovic, N.$$b48
000424311 7001_ $$aWojton, T.$$b49
000424311 7001_ $$aYamamoto, H.$$b50
000424311 7001_ $$aZawiejski, L.$$b51
000424311 7001_ $$aZgura, I. S.$$b52
000424311 7001_ $$aZhemchugov, A.$$b53
000424311 773__ $$0PERI:(DE-600)1459069-4$$a10.1140/epjc/s10052-019-7077-9$$gVol. 79, no. 7, p. 579$$n7$$p579$$tThe European physical journal / C$$v79$$x1434-6044$$y2019
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