Plasma-wakefield acceleration of an intense positron beam

Plasma wakefields are both excited and probed by propagating an intense 28.5 GeV positron beam through a 1.4 m long lithium plasma. The main body of the beam loses energy in exciting this wakefield while positrons in the back of the same beam can be accelerated by the same wakefield as it changes si...

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Veröffentlicht in:	Physical review letters 2003-05, Vol.90 (21), p.214801-214801, Article 214801
Hauptverfasser:	Blue, B E, Clayton, C E, O'Connell, C L, Decker, F-J, Hogan, M J, Huang, C, Iverson, R, Joshi, C, Katsouleas, T C, Lu, W, Marsh, K A, Mori, W B, Muggli, P, Siemann, R, Walz, D
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container_end_page	214801
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container_title	Physical review letters
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creator	Blue, B E Clayton, C E O'Connell, C L Decker, F-J Hogan, M J Huang, C Iverson, R Joshi, C Katsouleas, T C Lu, W Marsh, K A Mori, W B Muggli, P Siemann, R Walz, D
description	Plasma wakefields are both excited and probed by propagating an intense 28.5 GeV positron beam through a 1.4 m long lithium plasma. The main body of the beam loses energy in exciting this wakefield while positrons in the back of the same beam can be accelerated by the same wakefield as it changes sign. The scaling of energy loss with plasma density as well as the energy gain seen at the highest plasma density is in excellent agreement with simulations.
doi_str_mv	10.1103/PhysRevLett.90.214801
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title	Plasma-wakefield acceleration of an intense positron beam
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