Your search keyword '"gyrotron equation"' showing total 3 results

1. Numerical experiments with single mode gyrotron equations

Author

Andrejs Reinfelds, Olgerts Dumbrajs, Harijs Kalis, Janis Cepitis, and Dana Constantinescu

Subjects

finite difference scheme, gyrotron equation, method of lines, oscillation of solution, Mathematics, QA1-939

Abstract

Gyrotrons are microwave sources whose operation is based on the stimulated cyclotron radiation of electrons oscillating in a static magnetic field. This process is described by the system of two complex differential equations: nonlinear first order ordinary differential equation with parameter (averaged equation of electron motion) and second order partial differential equation for high frequency field (RF field) in resonator (Schrödinger type equation for the wave amplitude). The stationary problem of the single mode gyrotron equation in short time interval with real initial conditions was numerically examined in our earlier work. In this paper we consider the stationary and nonstationary problems in large time interval with complex oscillating initial conditions. We use the implicit finite difference schemes and the method of lines realized with MATLAB. Two versions of gyrotron equation are investigated. We consider different methods for modelling new and old versions of the gyrotron equations. The main physical result is the possibility to determine the maximal value of the wave amplitude and the electron efficiency coefficient.

Published

2012

2. Numerical Experiments with Single Mode Gyrotron Equations.

Author

Reinfelds, Andrejs, Dumbrajs, Olgerts, Kalis, Harijs, Cepītis, Jānis, and Constantinescu, Dana

Subjects

GYROTRONS, CYCLOTRON radiation, FINITE difference method, ORDINARY differential equations, ELECTRONS

Abstract

Gyrotrons are microwave sources whose operation is based on the stimulated cyclotron radiation of electrons oscillating in a static magnetic field. This process is described by the system of two complex differential equations: nonlinear first order ordinary differential equation with parameter (averaged equation of electron motion) and second order partial differential equation for high frequency field (RF field) in resonator (Schrödinger type equation for the wave amplitude). The stationary problem of the single mode gyrotron equation in short time interval with real initial conditions was numerically examined in our earlier work. In this paper we consider the stationary and nonstationary problems in large time interval with complex oscillating initial conditions. We use the implicit finite difference schemes and the method of lines realized with MATLAB. Two versions of gyrotron equation are investigated. We consider different methods for modelling new and old versions of the gyrotron equations. The main physical result is the possibility to determine the maximal value of the wave amplitude and the electron efficiency coefficient. [ABSTRACT FROM AUTHOR]

Published

2012

3. Numerical experiments with single mode gyrotron equations

Author

Dana Constantinescu, Harijs Kalis, O. Dumbrajs, Andrejs Reinfelds, and Jānis Cepītis

Subjects

Partial differential equation, Field (physics), Complex differential equation, Mathematical analysis, Method of lines, Finite difference, method of lines, law.invention, Nonlinear system, oscillation of solution, gyrotron equation, law, Modeling and Simulation, Gyrotron, Ordinary differential equation, QA1-939, finite difference scheme, Analysis, Mathematics

Abstract

Gyrotrons are microwave sources whose operation is based on the stimulated cyclotron radiation of electrons oscillating in a static magnetic field. This process is described by the system of two complex differential equations: nonlinear first order ordinary differential equation with parameter (averaged equation of electron motion) and second order partial differential equation for high frequency field (RF field) in resonator (Schrödinger type equation for the wave amplitude). The stationary problem of the single mode gyrotron equation in short time interval with real initial conditions was numerically examined in our earlier work. In this paper we consider the stationary and nonstationary problems in large time interval with complex oscillating initial conditions. We use the implicit finite difference schemes and the method of lines realized with MATLAB. Two versions of gyrotron equation are investigated. We consider different methods for modelling new and old versions of the gyrotron equations. The main physical result is the possibility to determine the maximal value of the wave amplitude and the electron efficiency coefficient.

Published

2012