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Variety of nonlinear wave-breaking |
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| Authors: | Sergei Bulanov Francesco Pegoraro Jun-ichi Sakai |
| Affiliation: | a General Physics Institute RAS Moscow Russia b Dipartimento di Fisica and INFM, Università di Pisa Pisa Italy c Laboratory for Plasma Astrophysics, Faculty of Engineering, Toyama University 3190 Gofuku, Toyama 930 Japan |
| Abstract: | We discuss the formation of typical (structurally stable) singularities in nonlinear wave breaking in stable and unstable media. The wake wave-break due to the inhomogeneity of the Langmuir frequency is accompanied by electron injection into the acceleration phase. In a wake wave excited behind a finite width laser pulse, the wave-breaking mechanism involves the increase, with the distance behind the pulse, of the curvature of the wake front, followed by the self-intersection of the electron trajectories. In the long wavelength limit, the Weibel instability which leads to the generation of a strong magnetic field, the relativistic self focusing and the Rayleigh-Taylor instability of a thin plasma slab provide examples of a common behavior with the rarefaction wave-breaking in unstable media. We present a solution of the Cauchy problem that describes the evolution of nonlinear perturbations of the Rayleigh-Taylor instability in terms of analytical functions of a complex variable. |
| Keywords: | Plasma accelerators Particle beam injection Laser pulses Magnetic fields Perturbation techniques Langmuir frequency Rayleigh-Taylor instability Weibel instability Cauchy problem |
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