Cosmic plasma wakefield acceleration

被引:0
|
作者
Chen, PS [1 ]
Tajima, T [1 ]
Takahashi, Y [1 ]
机构
[1] Stanford Univ, Stanford Linear Accelerator Ctr, Stanford, CA 94309 USA
来源
QUANTUM ASPECTS OF BEAM PHYSICS | 2004年
关键词
D O I
10.1142/9789812702333_0039
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Recently we proposed a new cosmic acceleration mechanism(1) which was based on the wakefields excited by the Alfven shocks in a relativistically flowing plasma. In this paper we include some omitted details, and show that there exists a threshold condition for transparency below which the accelerating particle is collision-free and suffers little energy loss in the plasma medium. The stochastic encounters of the random accelerating-decelerating phases results in a power-law energy spectrum: f(epsilon) proportional to 1/epsilon(2). As an example, we discuss the possible production of super-GZK ultra high energy cosmic rays (UHECR) in the atmosphere of gamma ray bursts. The estimated event rate in our model agrees with that from UHECR observations.
引用
收藏
页码:384 / 396
页数:13
相关论文
共 50 条
  • [11] Axionic suppression of plasma wakefield acceleration
    Burton, D. A.
    Noble, A.
    Walton, T. J.
    JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL, 2016, 49 (38)
  • [12] Plasma wakefield acceleration shows promise
    Miller, Johanna
    PHYSICS TODAY, 2015, 68 (01) : 11 - 13
  • [13] Laser Wakefield Acceleration in a Plasma Channel
    M. S. Dorozhkina
    K. V. Baluev
    D. D. Kutergin
    I. K. Lotov
    V. A. Minakov
    R. I. Spitsyn
    P. V. Tuev
    K. V. Lotov
    Bulletin of the Lebedev Physics Institute, 2023, 50 : S715 - S723
  • [14] Laser wakefield acceleration in magnetized plasma
    Jha, Pallavi
    Saroch, Akanksha
    Mishra, Rohit Kumar
    Upadhyay, Ajay Kumar
    PHYSICAL REVIEW SPECIAL TOPICS-ACCELERATORS AND BEAMS, 2012, 15 (08):
  • [15] Blowout regimes of plasma wakefield acceleration
    Lotov, KV
    PHYSICAL REVIEW E, 2004, 69 (04): : 13
  • [16] Plasma wakefield acceleration experiments at FACET
    Hogan, M. J.
    Raubenheimer, T. O.
    Seryi, A.
    Muggli, P.
    Katsouleas, T.
    Huang, C.
    Lu, W.
    An, W.
    Marsh, K. A.
    Mori, W. B.
    Clayton, C. E.
    Joshi, C.
    NEW JOURNAL OF PHYSICS, 2010, 12
  • [17] Progress in Hybrid Plasma Wakefield Acceleration
    Hidding, Bernhard
    Assmann, Ralph
    Bussmann, Michael
    Campbell, David
    Chang, Yen-Yu
    Corde, Sebastien
    Cabadag, Jurjen Couperus
    Debus, Alexander
    Doepp, Andreas
    Gilljohann, Max
    Goetzfried, J.
    Foerster, F. Moritz
    Haberstroh, Florian
    Habib, Fahim
    Heinemann, Thomas
    Hollatz, Dominik
    Irman, Arie
    Kaluza, Malte
    Karsch, Stefan
    Kononenko, Olena
    Knetsch, Alexander
    Kurz, Thomas
    Kuschel, Stephan
    Koehler, Alexander
    de la Ossa, Alberto Martinez
    Nutter, Alastair
    Pausch, Richard
    Raj, Gaurav
    Schramm, Ulrich
    Schoebel, Susanne
    Seidel, Andreas
    Steiniger, Klaus
    Ufer, Patrick
    Yeung, Mark
    Zarini, Omid
    Zepf, Matt
    PHOTONICS, 2023, 10 (02)
  • [18] Laser Wakefield Acceleration in a Plasma Channel
    Dorozhkina, M. S.
    Baluev, K. V.
    Kutergin, D. D.
    Lotov, I. K.
    Minakov, V. A.
    Spitsyn, R. I.
    Tuev, P. V.
    Lotov, K. V.
    BULLETIN OF THE LEBEDEV PHYSICS INSTITUTE, 2023, 50 (SUPPL 6) : S715 - S723
  • [19] Hollow plasma channel for positron plasma wakefield acceleration
    Kimura, W. D.
    Milchberg, H. M.
    Muggli, P.
    Li, X.
    Mori, W. B.
    PHYSICAL REVIEW SPECIAL TOPICS-ACCELERATORS AND BEAMS, 2011, 14 (04):
  • [20] Electron Acceleration During the Mode Transition from Laser Wakefield to Plasma Wakefield Acceleration with a Dense-Plasma Wall
    Liu Mingping
    Liu Sanqiu
    He Jun
    Liu Jie
    PLASMA SCIENCE & TECHNOLOGY, 2013, 15 (09) : 841 - 844
12345