G. Vandoni

Construction, assembly and tests of the ATLAS electromagnetic end-cap calorimeters

The construction and the assembly of the two end-caps of the ATLAS liquid argon electromagnetic calorimeter as well as their test and qualification programs are described. The work described here started at the beginning of 2001 and lasted for approximately three years. The results of the qualification tests performed before installation in the LHC ATLAS pit are given. The detectors are now installed in the ATLAS cavern, full of liquid argon and being commissioned. The complete detectors coverage is powered with high voltage and readout.

A new ultra radiation hard cryogenic silicon tracker for heavy ion beams

AbstractWe have designed and built a new hodoscope for heavy ion beams consisting of two tracking stations equippedwith silicon microstrip detectors operated at 130K. Preliminary results from tests performed in the high intensityCERN-SPSPbionbeamshowthatwewereabletodetectandidentifyeachincomingionuptoabeamintensityofB10 7 ions/s.Thebeamprofilecouldbemonitoredon-linewith50mmresolution.Thedetectorperformedsatisfactoryevenafteradoseof90740Grad.r 2002ElsevierScienceB.V.Allrightsreserved. PACS:07.77. n;85.30.ZKeywords:Cryogenicsilicondetectors;Heavyions 1. IntroductionIn the framework of the CERN NA60 [1] andRD39Collaborations [2], we have developed anew cryogenic beam hodoscope, hereafter namedBeamscope, based on silicon microstrip detectorsoperated at 130K. This detector represents thefirst application in a high energy physics experi-mentofthecryogenicsilicontechnology,triggeredbythediscoveryofthe‘‘Lazaruseffect’’[3]in1998anddevelopedbyRD39.Operationofsiliconatcryogenictemperaturesisanattractivetechnologyindeedforapplicationinharsh environments. It has been shown [4,5] thatheavily irradiated silicon detectors operatedaround 130K have charge collection efficiency