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@ARTICLE{Assmann:205163,
      author       = {Assmann, R. and Bingham, R. and Bohl, T. and Bracco, C. and
                      Buttenschön, B. and Butterworth, A. and Caldwell, A. and
                      Chattopadhyay, S. and Cipiccia, S. and Feldbaumer, E. and
                      Fonseca, R. A. and Goddard, B. and Gross, M. and Grulke, O.
                      and Gschwendtner, E. and Holloway, J. and Huang, C. and
                      Jaroszynski, D. and Jolly, S. and Kempkes, P. and Lopes, N.
                      and Lotov, K. and Machacek, J. and Mandry, S. R. and
                      McKenzie, J. W. and Meddahi, M. and Militsyn, B. L. and
                      Moschuering, N. and Muggli, P. and Najmudin, Z. and Noakes,
                      T. C. Q. and Norreys, P. A. and Öz, E. and Pardons, A. and
                      Petrenko, A. and Pukhov, A. and Rieger, K. and Reimann, O.
                      and Ruhl, H. and Shaposhnikova, E. and Silva, L. O. and
                      Sosedkin, A. and Tarkeshian, R. and Trines, R. M. G. N. and
                      Tückmantel, T. and Vieira, J. and Vincke, H. and Wing, M.
                      and Xia, G.},
      title        = {{P}roton-driven plasma wakefield acceleration: a path to
                      the future of high-energy particle physics},
      journal      = {Plasma physics and controlled fusion},
      volume       = {56},
      number       = {8},
      issn         = {1361-6587},
      address      = {Bristol},
      publisher    = {IOP Publ.},
      reportid     = {PUBDB-2014-04590, arXiv:1401.4823},
      pages        = {084013},
      year         = {2014},
      note         = {OA},
      abstract     = {New acceleration technology is mandatory for the future
                      elucidation of fundamental particles and theirinteractions.
                      A promising approach is to exploit the properties of
                      plasmas. Past research has focused oncreating
                      large-amplitude plasma waves by injecting an intense laser
                      pulse or an electron bunch into theplasma. However, the
                      maximum energy gain of electrons accelerated in a single
                      plasma stage is limitedby the energy of the driver. Proton
                      bunches are the most promising drivers of wakefields to
                      accelerateelectrons to the TeV energy scale in a single
                      stage. An experimental program at CERN—the
                      AWAKEexperiment—has been launched to study in detail the
                      important physical processes and to demonstrate the power of
                      proton-driven plasma wakefield acceleration. Here we review
                      the physical principles andsome experimental considerations
                      for a future proton-driven plasma wakefield accelerator.},
      cin          = {ZEU-PITZ},
      ddc          = {530},
      cid          = {I:(DE-H253)ZEU-PITZ-20120731},
      pnm          = {541 - Photons (POF2-541) / EUCARD-2 - Enhanced European
                      Coordination for Accelerator Research $\&$ Development
                      (312453)},
      pid          = {G:(DE-HGF)POF2-541 / G:(EU-Grant)312453},
      experiment   = {EXP:(DE-MLZ)NOSPEC-20140101},
      typ          = {PUB:(DE-HGF)29 / PUB:(DE-HGF)16},
      eprint       = {1401.4823},
      howpublished = {arXiv:1401.4823},
      archivePrefix = {arXiv},
      SLACcitation = {$\%\%CITATION$ = $arXiv:1401.4823;\%\%$},
      UT           = {WOS:000340055300014},
      doi          = {10.1088/0741-3335/56/8/084013},
      url          = {https://bib-pubdb1.desy.de/record/205163},
}