Add to ORKGWe study the Schrödinger equation which comes from the paraxial approximation of the Helmholtz equation in the case where the direction of propagation is tilted with respect to the boundary of the domain. In a first part, a mathematical analysis is made which leads to an analytical formula of the solution in the simple case where the refraction index and the absorption coefficients are constant. Afterwards, we propose a numerical method for solving the initial problem which uses the previous analytical expression. Numerical results are presented. We also sketch an extension to a time dependant model which is relevant for laser plasma interaction.
We study the Schrödinger equation which comes from the paraxial approximation of the Helmholtz equat...
The motion of paraxial atomic beams in a laser radiation field is studied within the framework of a ...
Abstract. We study multi-parameter solutions of the inhomogeneous paraxial wave equation in a linear...
International audienceWe study the Schrödinger equation which comes from the paraxial approximation ...
The design of high-power lasers such as those used for inertial confinement fusion demands accurate ...
International audienceWe study the Schrödinger equation which comes from the paraxial approximation ...
International audiencePart of the chain in petawatt laser systems may involve extreme focusing condi...
We address here mathematical models related to the Laser-Plasma Interaction. After a simplified intr...
The aim of this work is to perform numerical simulations of the propagation of a laser beam in a pla...
Propagation of intense laser beams in a partially stripped preformed plasma channel, which has a par...
To simulate the propagation of a monochromatic laser beam in a medium, we use the paraxial approxima...
This paper shows that for a nonabsorbing medium with a prescribed index of refraction, the effects o...
Abstract: The mathematical modeling of the laser beam propagation in the unstable resonato...
This article presents a numerical and theoretical study of the generation and propagation of oscilla...
A new more accurate calculation algorithm (with a variable grid-mesh size) is proposed for the propa...
We study the Schrödinger equation which comes from the paraxial approximation of the Helmholtz equat...
The motion of paraxial atomic beams in a laser radiation field is studied within the framework of a ...
Abstract. We study multi-parameter solutions of the inhomogeneous paraxial wave equation in a linear...
International audienceWe study the Schrödinger equation which comes from the paraxial approximation ...
The design of high-power lasers such as those used for inertial confinement fusion demands accurate ...
International audienceWe study the Schrödinger equation which comes from the paraxial approximation ...
International audiencePart of the chain in petawatt laser systems may involve extreme focusing condi...
We address here mathematical models related to the Laser-Plasma Interaction. After a simplified intr...
The aim of this work is to perform numerical simulations of the propagation of a laser beam in a pla...
Propagation of intense laser beams in a partially stripped preformed plasma channel, which has a par...
To simulate the propagation of a monochromatic laser beam in a medium, we use the paraxial approxima...
This paper shows that for a nonabsorbing medium with a prescribed index of refraction, the effects o...
Abstract: The mathematical modeling of the laser beam propagation in the unstable resonato...
This article presents a numerical and theoretical study of the generation and propagation of oscilla...
A new more accurate calculation algorithm (with a variable grid-mesh size) is proposed for the propa...
We study the Schrödinger equation which comes from the paraxial approximation of the Helmholtz equat...
The motion of paraxial atomic beams in a laser radiation field is studied within the framework of a ...
Abstract. We study multi-parameter solutions of the inhomogeneous paraxial wave equation in a linear...