Add to ORKGThis study attempts to contribute to the differentiation of theoretical assumptions by representing charged particles (spin zero) by wave packets of Volkov solutions, and by representing the external field by a finite length pulse. The more general goal of this paper is the development of a formalism which can be applied to any quantum electrodynamic process involving a charged particle in a laser pulse.--Page 2
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
During six decades of quantum electronics, a vast majority of new types of quantum generators have b...
In this Letter, Schrodinger equation for a charged particle, say an electron, in the plane wave elec...
Quantum electrodynamics in a laser is formulated, in which the electron-laser interaction is exactly...
An analytical approach to quantum mechanical wave packet dynamics of laser-driven particles is prese...
The theoretical framework for describing the emission by free charged particles, scattered from high...
An analytical approach to quantum mechanical wave packet dynamics of laser-driven particles is prese...
n this chapter classical and quantum electrodynamics in intense laser fields are discussed. We focus...
n this chapter classical and quantum electrodynamics in intense laser fields are discussed. We focus...
International audienceThe derivation of approximate wave functions for an electron submitted to both...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
During six decades of quantum electronics, a vast majority of new types of quantum generators have b...
In this Letter, Schrodinger equation for a charged particle, say an electron, in the plane wave elec...
Quantum electrodynamics in a laser is formulated, in which the electron-laser interaction is exactly...
An analytical approach to quantum mechanical wave packet dynamics of laser-driven particles is prese...
The theoretical framework for describing the emission by free charged particles, scattered from high...
An analytical approach to quantum mechanical wave packet dynamics of laser-driven particles is prese...
n this chapter classical and quantum electrodynamics in intense laser fields are discussed. We focus...
n this chapter classical and quantum electrodynamics in intense laser fields are discussed. We focus...
International audienceThe derivation of approximate wave functions for an electron submitted to both...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
We discuss the use of a class of exact finite energy solutions to the vacuum source-free Maxwell equ...
During six decades of quantum electronics, a vast majority of new types of quantum generators have b...
In this Letter, Schrodinger equation for a charged particle, say an electron, in the plane wave elec...