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IHEP 2000 - 55
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| E.M.Boldyrev | ||
| Peculiarities of Particle Motion in the Plane Monochromatic Electromagnetic Wave Field | ||
| Protvino, 2000.-p.9, tables 10, refs.:6. | ||
With a spiral approach of a charged particle motion (into a beam) in the plane monochromatic elliptically polarized electromagnetic wave field some peculiarities of this motion were brought out. It is shown that the motion of a low energy particle is physically predicable. The motion doesn't depend on a particle movement along or against the wave spreading; the particle frequency is comparable with a wave frequency; the deflection of particle from the axis of initial motion is inversely proportional to its mass. It is shown that the motion of a high energy particle (an ultrarelativistic particle) has a number of peculiarities. The motion depends essentialy on the way the particle moves along or against the wave spreading. If the particle moves along a wave spreading, the particle frequency is a few cycles only or even less. The deflection of particle from the axis of initial motion may be proportional to the particle mass. If the particle moves against the wave spreading, the frequency is twice as much as the wave frequency and the motion of particle is independent of the particle mass. The peculiarities associated with the particle mass were first established.
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