Add to ORKGThe numerical representation of the average motion of a charged particle trapped in a geomagnetic field is developed. An assumption is made of the conservation of the first two adiabatic invariants where integration is along a field line between mirror points. The averaged motion also involved the parameters defining the magnetic field line to which the particle is attached. Methods involved in obtaining the motion in the equatorial plane of model magnetospheres are based on Hamiltonian functions. The restrictions imposed by the special nature of the dipole field are defined
Calculation of changes in energy and equatorial pitch angles of geomagnetically trapped particles as...
A proton of low energy moving in the equatorial plane of the earth will experience drift motions due...
Charged particles in a dipole magnetic field have been investigated. The purpose of the paper is to ...
Adiabatic invariants of charged particle motion used to calculate trajectories of particles in dipol...
The principal difficulties encountered in attempting to solve the general problem of the motion of a...
This article aims to understand the dynamics of charged particles trapped in Earth's dipolar magneti...
Adiabatic motion of auroral particles in model of earth electric and magnetic fiel
The guiding center motion of particles in a nearly drift free magnetic field is analyzed in order to...
The motion of charged particles in the Earth’s magnetic field has been of interest to mathematicians...
Particle motions in magnetic fields, as related to charged particle trapping in Van Allen bel
Dipole representations of the earth's magnetic field have been found to have insufficient accuracy f...
Drift rates and adiabatic guiding center motion of charged particle in idealized interplanetary magn...
Detailed models of the electric field of the magnetosphere are derived in several stages. For all, t...
The spatial and temporal characterization of trapped charged particle trajectories in magnetospheres...
An approximate analytical expression is obtained for the orbits of a charged particle moving in a cu...
Calculation of changes in energy and equatorial pitch angles of geomagnetically trapped particles as...
A proton of low energy moving in the equatorial plane of the earth will experience drift motions due...
Charged particles in a dipole magnetic field have been investigated. The purpose of the paper is to ...
Adiabatic invariants of charged particle motion used to calculate trajectories of particles in dipol...
The principal difficulties encountered in attempting to solve the general problem of the motion of a...
This article aims to understand the dynamics of charged particles trapped in Earth's dipolar magneti...
Adiabatic motion of auroral particles in model of earth electric and magnetic fiel
The guiding center motion of particles in a nearly drift free magnetic field is analyzed in order to...
The motion of charged particles in the Earth’s magnetic field has been of interest to mathematicians...
Particle motions in magnetic fields, as related to charged particle trapping in Van Allen bel
Dipole representations of the earth's magnetic field have been found to have insufficient accuracy f...
Drift rates and adiabatic guiding center motion of charged particle in idealized interplanetary magn...
Detailed models of the electric field of the magnetosphere are derived in several stages. For all, t...
The spatial and temporal characterization of trapped charged particle trajectories in magnetospheres...
An approximate analytical expression is obtained for the orbits of a charged particle moving in a cu...
Calculation of changes in energy and equatorial pitch angles of geomagnetically trapped particles as...
A proton of low energy moving in the equatorial plane of the earth will experience drift motions due...
Charged particles in a dipole magnetic field have been investigated. The purpose of the paper is to ...