%0 Journal Article
%A Gschwendtner, E.
%A Adli, E.
%A Amorim, L.
%A Apsimon, R.
%A Assmann, R.
%A Bachmann, A. M.
%A Batsch, F.
%A Bauche, J.
%A Berglyd Olsen, V. K.
%A Bernardini, M.
%A Bingham, R.
%A Biskup, B.
%A Bohl, T.
%A Bracco, C.
%A Burrows, P. N.
%A Burt, G.
%A Buttenschon, B.
%A Butterworth, A.
%A Caldwell, A.
%A Cascella, M.
%A Chevallay, E.
%A Cipiccia, S.
%A Damerau, H.
%A Deacon, L.
%A Dirksen, P.
%A Doebert, S.
%A Dorda, U.
%A Farmer, J.
%A Fedosseev, V.
%A Feldbaumer, E.
%A Fiorito, R.
%A Fonseca, R.
%A Friebel, F.
%A Gorn, A. A.
%A Grulke, O.
%A Hessler, C.
%A Hofle, W.
%A Holloway, J.
%A Huther, M.
%A Jaroszynski, D.
%A Jensen, L.
%A Jolly, S.
%A Joulaei, A.
%A Kasim, M.
%A Keeble, F.
%A Lopes, N.
%A Lotov, K. V.
%A Mandry, S.
%A Martorelli, R.
%A Martyanov, M.
%A Mazzoni, S.
%A Mete, O.
%A Minakov, V. A.
%A Mitchell, J.
%A Moody, J.
%A Muggli, P.
%A Najmudin, Z.
%A Norreys, P.
%A Oz, E.
%A Pardons, A.
%A Pepitone, K.
%A Petrenko, A.
%A Plyushchev, G.
%A Pukhov, A.
%A Rieger, K.
%A Ruhl, H.
%A Salveter, F.
%A Savard, N.
%A Seryi, A.
%A Shaposhnikova, E.
%A Sheng, Z. M.
%A Sherwood, P.
%A Silva, L.
%A Soby, L.
%A Sosedkin, A. P.
%A Spitsyn, R. I.
%A Trines, R.
%A Tuev, P. V.
%A Turner, M.
%A Verzilov, V.
%A Vieira, J.
%A Vincke, H.
%A Welsch, C. P.
%A Wing, M.
%A Xia, G.
%A Hansen, J.
%A Li, Y.
%A Liu, S.
%A Schmidt, J.
%A Wei, Y.
%A Zhang, H.
%T AWAKE, The Advanced Proton Driven Plasma Wakefield Acceleration Experiment at CERN
%J Nuclear instruments & methods in physics research / A
%V 829
%N arXiv:1512.05498
%@ 0168-9002
%C Amsterdam
%I North-Holland Publ. Co.
%M PUBDB-2017-00331
%M arXiv:1512.05498
%P 76 - 82
%D 2016
%X The Advanced Proton Driven Plasma Wakefield Acceleration Experiment (AWAKE) aims at studying plasma wakefield generation and electron acceleration driven by proton bunches. It is a proof-of-principle R</td><td width="150">
%X D; experiment at CERN and the world׳s first proton driven plasma wakefield acceleration experiment. The AWAKE experiment will be installed in the former CNGS facility and uses the 400 GeV/c proton beam bunches from the SPS. The first experiments will focus on the self-modulation instability of the long (rms 12 cm) proton bunch in the plasma. These experiments are planned for the end of 2016. Later, in 2017/2018, low energy ( 15 MeV) electrons will be externally injected into the sample wakefields and be accelerated beyond 1 GeV. The main goals of the experiment will be summarized. A summary of the AWAKE design and construction status will be presented.
%K plasma: wake field (INSPIRE)
%K acceleration: wake field (INSPIRE)
%K electron: acceleration (INSPIRE)
%K p: beam (INSPIRE)
%K energy: low (INSPIRE)
%K AWAKE (INSPIRE)
%K CERN Lab (INSPIRE)
%K stability (INSPIRE)
%K CERN SPS (INSPIRE)
%K CNGS (INSPIRE)
%K beam loading (INSPIRE)
%K laser: beam (INSPIRE)
%K modulation (INSPIRE)
%K proposed experiment (INSPIRE)
%K EuCARD2 (INSPIRE)
%F PUB:(DE-HGF)29 ; PUB:(DE-HGF)16
%9 ReportJournal Article
%U <Go to ISI:>//WOS:000379144100015
%R 10.1016/j.nima.2016.02.026
%U https://bib-pubdb1.desy.de/record/316961
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