SU608421A1 - Undulator - Google Patents

Description

(54) ONDULATOR

located on: electron beam paths .2.

The undulator consists of magnetic sections, which create an alternating magnetic field along the axis of the installation. An electron beam passing through such a system generates linearly polarized radiation. The magnetic field in each section is uniform in the radial direction (in the region occupied by the beam), the electrons across the beam cross section have the same conditions of motion along the magnetic section and simultaneously pass from section to section.

However, such an undulator has a disadvantage - the impossibility of the generation by electrons of other types of polarization of undulator radiation, other than linear, since The trajectories of the electron beam particles lie in a plane parallel to the poles of the system.

The aim of the invention is to obtain undulator radiation of different polarization.

This is achieved by the fact that the magnetic sections are made in the form of two identical parts, one of the same parts of each section being rotated around the longitudinal axis at the same angle in one direction relative to the other part.

The drawing schematically shows the device ondul torus.

The device works as follows. When the angle of rotation About one half of each magnetic section relative to its other half around the longitudinal axis is an ordinary flat magnetic undulator (see Fig. 1 a). All electrons in the beam move in a plane parallel to the poles of the system. Radiation of electrons is linearly polarized (see figb). At an angle of rotation of ± 90 ° (see Fig. 1c), we obtain a right-or left-handed magnetic field along the axis of the system; the beam electrons move along the left-handed trajectory. In this case, the radiation of electrons, along the axis of the cone of radiation, is right-or left-handed circular polarization (see Fig. 1 g

By setting the rotation angle in the range from O to ± 90, we obtain intermediate values of the degree of elliptical polarization of the right or left rotation of the polarization vector. It should be noted that, in any case, the spectrum of undulator radiation remains unchanged, since the period of the magnetic field T does not change, and the geometrical and electrical parameters of both halves of each magnetic section are equal to each other. The magnetic sections themselves may differ from each other.

Of particular importance is the proposed invention when installing

5 of an undulator in a linear interval of electron storage rings, since it allows to generate undulator radiation with adjustable polarization in a particularly interesting for

0 studies of the vacuum-ultraviolet spectral region, which makes it possible to more fully use this unique radiation in experimental physics of solid state, photochemistry,

5 biology and applied works.

Claims (2)

1. Alferov DF, Bashmakov Yu.A., and Bessonov E.G. Circular pj generation of no-polarized electromagnetic radiation. Predrint 118 FIAN USSR, 1975. 2. Nikitin M.M. and Medvedev A.F. Lime universities, physics, 8, 85, 1975. D M I f I 5 I 5 I. one . t is G I I S IS l U I I U 1 H I