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The structure of the calorimeters built with the ''Shashlik'' technique [1] allows the insertion of tracking detectors within the sampling structure, in order to improve the accuracy in the determination of the showering particle direction and to enhance the e-pi separation ability. The new luminosity monitor of the DELPHI detector at LEP was equipped With two planes of silicon pad detectors placed at a depth of 4 and 7.4 radiation lengths. A description of the silicon detectors is given, together with the results from the exposure to a test beam.

A Silicon Pad Shower Maximum Detector For A Shashlik Calorimeter

S. J. ALVSVAAG;O. A. MAELAND;A. KLOVNING;A. C. BENVENUTI;V. GIORDANO;M. GUERZONI;F. L. NAVARRIA;M. G. VERARDI;T. CAMPORESI;E. VALLAZZA;M. BOZZO;R. CERESETO;G. BARREIRA;M. C. E.;A. MAIO;A. ONOFRE;L. PERALTA;M. PIMENTA;B. TOME;H. CARLING;E. FALK;V. HEDBERG;G. JARLSKOG;I. KRONKVIST;M. BONESINI;F. CHIGNOLI;S. GUMENYUK;R. LEONI;R. MAZZA;P. NEGRI;M. PAGANONI;L. PETROVYKH;F. TERRANOVA;D. R. DHARMASIRI;B. NOSSUM;A. L. READ;B. SKAALI;L. CASTELLANI;M. PEGORARO;A. FENYUK;I. GOUZ;I. IVANYUSHENKOV;A. KARYUKHIN;V. OBRAZTSOV;E. VLASOV;A. ZAITSEV;M. BIGI;V. CASSIO;GAMBA, Diego;MIGLIORE, Ernesto;ROMERO, Alessandra;L. SIMONETTI;E. TORASSA;TRAPANI, Pier Paolo;M. BARI;G. DELLARICCA;L. LANCERI;P. POROPAT;M. PREST

1995-01-01

Abstract

The structure of the calorimeters built with the ''Shashlik'' technique [1] allows the insertion of tracking detectors within the sampling structure, in order to improve the accuracy in the determination of the showering particle direction and to enhance the e-pi separation ability. The new luminosity monitor of the DELPHI detector at LEP was equipped With two planes of silicon pad detectors placed at a depth of 4 and 7.4 radiation lengths. A description of the silicon detectors is given, together with the results from the exposure to a test beam.

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	Anno
	
			1995
		
	Titolo rivista
	
			IEEE TRANSACTIONS ON NUCLEAR SCIENCE
		
	N. Volume
	
			42
		
	Pagine (da)
	
			469
		
	Pagine (a)
	
			473
		
	DOI
	
			https://dx.doi.org/10.1109/23.467927
		
	Tutti gli autori
	
			S. J.  ALVSVAAG;O. A.  MAELAND;A.  KLOVNING;A. C.  BENVENUTI;V.  GIORDANO;M.  GUERZONI;F. L.  NAVARRIA;M. G.  VERARDI;T.  CAMPORESI;E.  VALLAZZA;M.  BOZZO;R.  CERESETO;G.  BARREIRA;M. C.  E.;A.  MAIO;A.  ONOFRE;L.  PERALTA;M.  PIMENTA;B.  TOME;H.  CARLING;E.  FALK;V.  HEDBERG;G.  JARLSKOG;I.  KRONKVIST;M.  BONESINI;F.  CHIGNOLI;S.  GUMENYUK;R.  LEONI;R.  MAZZA;P.  NEGRI;M.  PAGANONI;L.  PETROVYKH;F.  TERRANOVA;D. R.  DHARMASIRI;B.  NOSSUM;A. L.  READ;B.  SKAALI;L.  CASTELLANI;M.  PEGORARO;A.  FENYUK;I.  GOUZ;I.  IVANYUSHENKOV;A.  KARYUKHIN;V.  OBRAZTSOV;E.  VLASOV;A.  ZAITSEV;M.  BIGI;V.  CASSIO;D.  GAMBA;E.  MIGLIORE;A.  ROMERO;L.  SIMONETTI;E.  TORASSA;P. P.  TRAPANI;M.  BARI;G.  DELLARICCA;L.  LANCERI;P.  POROPAT;M.  PREST
		
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			03A-Articolo su Rivista

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/103215

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