DE1129240B - Magnetic bundling system for bundled guidance of the flow of electrons in a travel time tube, in particular traveling field tubes - Google Patents

Description

voltage drop per unit length the excess magnetic lines of force of the extended part of the

the course of the magnetic focusing field strength 25 guide tube at the transition point as parin as possible The longitudinal direction of the bundling system arises, allele to the axis of the bundling system in the Füh-Durch the measure of the deposition of the inside can occur approximately pipe.

of the guide tube comes, among other things

in the at the transition point (from the extended part of the magnetic bundling system of the input earth Guide tube to its narrow part) mentioned the invention in the fact that in the opening Section of the narrow part of the leading part of the guide tube between the Rungsrohres a greater increase in field strength to the Hohneiterkoppelstelle and the transition point from stands. extended part of the guide tube to its narrow

The invention is based on the object of at least one magnetic secondary course the magnetic concentration field strength within 35 closing to the guide tube forming ring-shaped half of this section of the narrow part of the guide disc made of magnetically soft material such To correct the pipe, especially a break-in thickness and such a diameter is arranged that like decrease in the concentration field strength in this in the adjoining section of the narrow part Section to avoid. Such a decrease would reduce the magnetic field of the guide tube in the case of a traveling wave tube, a split of the 40 is already essentially homogeneous or with respect to Electron flow and thus an impermissible increase in strength in the direction of flow of the transition to the delay line is increasing. Electron flow result. It is already known to influence the

The invention is based on the knowledge that one runs along the bundling field lines of a magnetic field only then in the extended and narrow part of the guide 45 bundling system on its jet generator side tube the same magnetic field strength er end a soft magnetic ring disc across the is allowed to wait when the transition point between he electron beam to provide the axis of the there further and narrow part of the guide tube very magnetic focusing field roughly with the satisfies certain conditions. It must then be possible to bring the axis of the beam into agreement, the magnetic resistance in the area of the over 50 From an influence on the magnetic bundle entry point be chosen so that the field strength in the area within the meaning of the invention is thereby magnetic chip generated at the transition point, however, no use was made.

203 57Ϊ / 221

The required reduction in magnetic resistance can advantageously be achieved by that the annular disc has a different thickness and / or a different Has outside diameter. In addition, the distance between the annular disc and the transition point be changeable from the extended part of the guide tube to its narrow part.

The invention is to be explained in more detail with reference to the drawing. In ίο

Fig. 1 is a magnetic bundling system without the soft magnetic disk of the invention illustrated schematically;

Fig. 2 shows a curve of the field strength profile inside the guide tube of the bundling system of Fig. 1 in comparison to the desired by the invention course of the magnetic Field strength; in

Fig. 3 is the desired course of the magnetic lines of force at the transition point of the bundling system illustrated according to Fig. 1, while

4 finally shows an exemplary embodiment according to the invention in its essentials for the invention Parts reproduced in a simplified representation.

In Fig. 1, 1, 2 and 3 denotes the guide tube of the magnetic bundling system, whose narrow part 1 via the annular disc-shaped extension piece 2 with the enlarged part 3 in connection stands. The extension is so large that the opening 4 enables the introduction of the input waveguide. Two annular disc-shaped end plates 5 and 6 made of soft iron provide the magnetic connection to the permanent magnet system, which, from a tubular permanent magnet or a number bar-shaped magnets 7 and 8 is formed.

The field strength curve that results from such a bundling system in the interior of the guide tube 1, 2 and 3 essentially corresponds to the dash-dotted curve c in FIG . For this purpose, as shown in Fig. 3, the magnetic resistance in the area of the transition point from the widened part to the narrow part of the sensing tube must be selected so that the magnetic voltage drop per unit length that occurs in the area of the transition point, ie the magnetic excitation, allows the excess magnetic lines of force of the widened part of the guide tube to enter the guide tube at the transition point as parallel as possible to the axis of the bundling system. The magnetic lines of force are symbolized by the arrows 9, while the same reference numerals as in FIG. 1 are used for the other parts.

Since the fluctuations in the permeability of the magnetic material within the tolerance limits of the same are sufficient to change the magnetic resistance more or less so that the field strength has a course as shown in curves b and c shown in FIG Resistance in the area of the transition point can be varied. For this purpose, the magnetic resistance in the transition area is advantageously made much too large on purpose. This gives a course corresponding to curve b in FIG Guide tube to its narrow part at least one annular disc forming a magnetic shunt to the guide tube made of magnetically soft material of such thickness and diameter is arranged that in the adjoining section of the narrow part of the guide tube the magnetic field is already substantially homogeneous or with regard to its strength in the direction of flow is still rising slightly.

An exemplary embodiment for this is illustrated in FIG. 4. The same reference numbers are again used for the same parts. The additional ring-shaped disk made of magnetically soft material is denoted by 10, its thickness with b and its outside diameter with D. To change the magnetic resistance step by step, the thickness b and / or the outside diameter D of the disk 10 can be different. If necessary, several disks can be placed next to one another or concentrically one inside the other in order to be able to change the thickness or the outer diameter in stages. For the continuous variation of the magnetic resistance, the distance α can be continuously changed by means of suitable adjustment devices.

Claims (3)

Patent claims: 1. Magnetic bundling system for bundled guidance of the electron flow of a Time-of-flight tube, in particular traveling wave tube, by means of a essentially homogeneous magnetic field in which the electron flow in the area of their bundled Guiding of a tubular part made of magnetically soft material (guide tube) is enclosed, inside the magnetic focusing field from an outside of the Guide tube arranged permanent magnet system is generated, which one with the guide tube forms closed ferromagnetic circuit, and in which the guide tube of at least one Front side up to the rear of the perforations made in the guide tube for importing serve as a coupling waveguide, has a larger diameter (extended part of the guide tube) than the rest of the stepped part of the guide tube (narrow part of the guide tube), characterized in that in the enlarged part of the guide tube between the waveguide coupling point and the transition point from the widened part of the guide tube to its narrow part at least one magnetic shunt to the guide tube forming annular disc made of magnetic soft material of such thickness and diameter is arranged that in the subsequent Section of the narrow part of the guide tube, the magnetic focusing field is already substantially homogeneous or with respect to its strength is still slightly increasing in the direction of flow. 2. Magnetic bundling system according to claim 1, characterized in that the annular Disc a different thickness and / or has a different outside diameter. 3. Magnetic bundling system according to claim 1 or 2, characterized in that the distance between the annular disc and the transition point from the enlarged part of the guide tube to a small extent of which is changeable. Considered publications: German Patent No. 893,990; French patent specification No. 1 060 368. Older patents considered: German Patent No. 1098 625. 1 sheet of drawings