61 research outputs found
A Novel Solution to the Klein-Gordon Equation in the Presence of a Strong Rotating Electric Field
The Klein-Gordon equation in the presence of a strong electric field, taking
the form of the Mathieu equation, is studied. A novel analytical solution is
derived for particles whose asymptotic energy is much lower or much higher than
the electromagnetic field amplitude. The condition for which the new solution
recovers the familiar Volkov wavefunction naturally follows. When not
satisfied, significant deviation from the Volkov wavefunction is demonstrated.
The new condition is shown to differ by orders of magnitudes from the commonly
used one. As this equation describes (neglecting spin effects) the emission
processes and the particle motion in Quantum Electrodynamics (QED) cascades,
our results suggest that the standard theoretical approach towards this
phenomenon should be revised
The interaction of high-power lasers with plasmas
The Interaction of High-Power Lasers with Plasmas provides a thorough self-contained discussion of the physical processes occurring in laser-plasma interactions, including a detailed review of the relevant plasma and laser physics. The book analyzes laser absorption and propagation, electron transport, and the relevant plasma waves in detail. It also discusses the physics of the electric and magnetic fields in a laser-induced plasma medium, laser-induced shock waves, rarefaction waves, heat waves, and the related hydrodynamic instabilities (Rayleigh-Taylor, Richtmyer-Meshkov, and Kelvin-Helmholtz).A pedagogical presentation, the book addresses the basic physics issues from first principles, using simple models wherever appropriate. The coverage provides a foundation on which the graduate student can build an understanding of the past and present research in this field. For the experienced researcher, the book is a comprehensive and useful presentation of laser-plasma interactions
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