"Finger" structure of tiles in CMS Endcap Hadron Calorimeters

Two CMS Endcap hadron calorimeters (HE) have been in operation for several years and contributed substantially to the success of the CMS Physics Program. The HE calorimeter suffered more from the radiation than it had been anticipated because of rapid degradation of scintillator segments (tiles) whi...

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Detalles Bibliográficos
Autores principales: Afanasiev, Sergey, Boyarintsev, A.Yu, Danilov, Mikhail, Emeliantchik, Igor, Ershov, Yuri, Golutvin, Igor, Grinyov, B.V, Ibragimova, Elvira, Levchuk, Leonid, Litomin, Aliaksandr, Makankin, Alexander, Malakhov, Alexander, Moisenz, Petr, Nuritdinov, I, Popov, V.F, Rusinov, Vladimir, Shumeiko, Nikolai, Smirnov, Vitaly, Sorokin, Pavlo, Tarkovskiy, Evgueni, Tashmetov, A, Vasiliev, S.E, Yuldashev, Bekhzod, Zamyatin, Nikolay, Zhmurin, Petro
Lenguaje:eng
Publicado: 2015
Materias:
Detectors and Experimental Techniques
Acceso en línea:http://cds.cern.ch/record/1987690
Descripción
Sumario:Two CMS Endcap hadron calorimeters (HE) have been in operation for several years and contributed substantially to the success of the CMS Physics Program. The HE calorimeter suffered more from the radiation than it had been anticipated because of rapid degradation of scintillator segments (tiles) which have a high radiation flux of secondary particles. Some investigations of scintillators have shown that the degradation of plastic scintillator increases significantly at low dose rates. A proposal to upgrade up-grade the HE calorimeter has been prepared to provide a solution for survivability of the future LHC at higher luminosity and higher energy. A finger-strip plastic scintillator option has many advantages and is a lower cost alternative to keep the excellent HE performance at high luminosity. Measurements have been performed and this method has proved to be a good upgrade strategy.

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