| Literature DB >> 30141672 |
Gregor Loisch1, Galina Asova1,2, Prach Boonpornprasert1, Reinhard Brinkmann3, Ye Chen1, Johannes Engel1, James Good1, Matthias Gross1, Florian Grüner4,5, Holger Huck1, Davit Kalantaryan1, Mikhail Krasilnikov1, Osip Lishilin1, Alberto Martinez de la Ossa4, Timon J Mehrling3, David Melkumyan1, Anne Oppelt1, Jens Osterhoff3, Houjun Qian1, Yves Renier1, Frank Stephan1, Carmen Tenholt6, Valentin Wohlfarth1, Quantang Zhao1.
Abstract
Particle-beam-driven plasma wakefield acceleration (PWFA) enables various novel high-gradient techniques for powering future compact light-source and high-energy physics applications. Here, a driving particle bunch excites a wakefield response in a plasma medium, which may rapidly accelerate a trailing witness beam. In this Letter, we present the measurement of ratios of acceleration of the witness bunch to deceleration of the driver bunch, the so-called transformer ratio, significantly exceeding the fundamental theoretical and thus far experimental limit of 2 in a PWFA. An electron bunch with ramped current profile was utilized to accelerate a witness bunch with a transformer ratio of 4.6_{-0.7}^{+2.2} in a plasma with length ∼10 cm, also demonstrating stable transport of driver bunches with lengths on the order of the plasma wavelength.Year: 2018 PMID: 30141672 DOI: 10.1103/PhysRevLett.121.064801
Source DB: PubMed Journal: Phys Rev Lett ISSN: 0031-9007 Impact factor: 9.161