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|a dc
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|a Alver, Burak Han
|e author
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|a Massachusetts Institute of Technology. Department of Physics
|e contributor
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|a Massachusetts Institute of Technology. Laboratory for Nuclear Science
|e contributor
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|a Massachusetts Institute of Technology. Department of Nuclear Science and Engineering
|e contributor
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|a Bauer, Gerry P
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|a Bendavid, Joshua L.
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|a Busza, Wit
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|a Butz, Erik M.
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|a Cali, Ivan Amos
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|a Chan, M.
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|a D'Enterria, David
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|a Everaerts, Pieter Bruno Bart
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|a Gomez-Ceballos, Guillelmo
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|a Hahn, Kristian Allan
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|a Harris, Philip Coleman
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|a Jaditz, Stephen Hunter
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|a Kim, Y.
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|a Klute, Markus
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|a Lee, Youjin
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|a Li, W.
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|a Loizides, Constantinos
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|a Ma, T.
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|a Miller, M.
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|a Nahn, Steven C.
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|a Paus, Christoph M. E.
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|a Roland, Christof E
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|a Roland, Gunther M
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|a Rudolph, Matthew Scott
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|a Stephans, George S. F.
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|a Sumorok, Konstanty C
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|a Sung, K.
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|a Vaurynovich, Siarhei S.
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|a Wenger, Edward Allen
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|a Wyslouch, Boleslaw
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|a Xie, Si
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|a Yilmaz, Yetkin
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|a Yoon, A. S.
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|a Time reconstruction and performance of the CMS electromagnetic calorimeter
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|b IOP Publishing,
|c 2019-06-19T15:32:04Z.
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|z Get fulltext
|u https://hdl.handle.net/1721.1/121357
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|a The resolution and the linearity of time measurements made with the CMS electromagnetic calorimeter are studied with samples of data from test beam electrons, cosmic rays, and beam-produced muons. The resulting time resolution measured by lead tungstate crystals is better than 100 ps for energy deposits larger than 10 GeV. Crystal-to-crystal synchronization with a precision of 500 ps is performed using muons produced with the first LHC beams in 2008.
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|a en
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|a Article
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|t Journal of Instrumentation
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