DE932082C - Arrangement for the execution of electrons from the acceleration tube of a beam transformer equipped with electrostatic stabilizing lenses - Google Patents

Description

In the main patent it has already been proposed to stabilize the electron trajectories in the acceleration tubes of a beam transformer the spell circle on the whole circumference with electrostatic, to occupy electron optic series lenses. These consist of successive panels, whose plane is perpendicular to the tangent of the orbit on the relevant stiffener, with each diaphragm oil electrode compared to the two neighboring ones to the highest possible positive or negative Gliding voltage potential! should fly. In the main patent, aurih is already suggested at the point at which the accelerated electron stream is to be discharged from the acceleration tube, the acceleration tube as shown in Fig. ι, to execute. There io means the flight direction of the accelerated electrons, 11 that of the simpler drawing hailber ails straight line shown Bannkreis undl 12 which are located at the exit point for the flow of electrons expanding like a funnel acceleration tube. the Lens electrodes in Fig. 1 only with their in the plane lying cross section shown. As mentioned, they are on alternate basis

positive and negative potential. In order to maintain a stabilization field for the electrons, which have to pass through the exit point many times during this acceleration process, despite the funnel-shaped arrangement of the stabilization electrodes, which runs in the same way as on the non-funnel-shaped stiffeners, the BesoMeunigungsröhxe, according to the main patent in the funnel-shaped part at ¹ unchanged tension between the

ίο electrodes in the direction of the orbit tangent existing electrode spacing has been chosen to be smaller than the one that is not funnel-shaped expanding tube parts.

According to the invention, a simpler arrangement for carrying out the electrons from the Accelerator tube equipped with electrostatic stabilization lenses according to the main patent Radiation transformers are created in that they have the same internal diameters executed lens electrodes from the point at which the .from the equilibrium circle derived steel electrons hit the inner edge of the lens electrodes, have a slot or a through hole that

as the beam 'through the plane of the linear electrodes let go of faitiduirch.

This makes it possible to use the lens electrodes, apart from the slit or the through-hole, the same dimensions also on the

3 "are given as in the other places of the inclination tube. The shape of the tube and the lens electrodes shown in Fig. 2 are obtained on the discharge part, both with regard to the tube and with regard to the lentil farm and also with regard to the necessary fastening means ^{1 is} significantly simpler for the lens electrodes. In this, 10 means the direction of flight of the electrons and 11 a part of the straight line of equilibrium ^{circle. By means of 1 of} the plate electrodes 13, if the beam flow is to take place from the equilibrium circle, a tangent running transversely to the orbit is created The electrons therefore pass through a parabolic path between the plate electrodes 13 and, after leaving this field, move on in the direction of the tangent at the end of this parabola, thus passing through the dotted path 14. The lens electrodes, which g According to what was said at the beginning, they have the shape of circular, flat screens, are now either provided with slots which, according to Fig. 3 or 4, only extend over a part of the circular ring, or according to Fig. 5 with perforations, which are spaced accordingly in buckets 17 from the center point of the inner diaphragm opening, which represents the straight through-hole of the walking-weight circle through the electronic level, or finally, as shown in Fig. 6, with continuous slots 18.

There are relatively many possibilities for the formation of the slots or bores. You can the delimiting edges of the slot 14 according to Fig. 3 in the direction of the. Radius the diaphragm electrode or, as the slot 15 in Fig. 4 shows, the boundary edges parallel to each other and parallel to the radial direction leading through the Schlitzmi.tte. The through-hole 16 according to FIG. 5 can also be designed to be square or trapezoidal. Likewise, you can shape the continuous slot 18 according to Fig. 6 in such a way that its two in Fig. 6 edges shown parallel to one another enclose a small angle with one another and, as shown in Fig. 3 for the discontinuous slot 14 'in the radial direction'.

There is also the possibility of a slot beginning at the inner edge of the lens electrode according to Fig. 3, 4 or 6 with one corresponding to the inner edge of the unprotected lens electrodes running thin wire 19, as shown in Fig. 7. This figure illustrates the slotted part of the lens electrode according to Fig. 6 with that at points 20 and 21 with the Lens inner edge connected wire 19.

Fig. 8 shows an embodiment for a continuous slot, which by virtue of the curved Formation of the slot delimiting edges has approximately the same effect as that in FIG Fig. 7 wire shown and also to slot shapes according to Fig. 3 or 4 can be used.

Claims (2)

Patent claims: 1. Arrangement for the execution of electrons from the Schleumigunigsröhre one with electrostatic Stabilizing lenses according to patent 927590 equipped radiation transformer, characterized in that the lens electrodes designed with the same inner diameters everywhere from the point at which the derived from the equilibrium circle Beam electrons would hit the inner edge of the lens electrodes, creating a slit or have a through-hole through which the beam can pass through the plane of the iron electrodes leaves. 2. Arrangement according to claim 1, characterized in that that the first or the first of the beam outside the circular inner edge interspersed lens electrodes with a corresponding the inner edge of the other lens electrodes are provided with a thin wire are. 1 sheet of drawings 1 509536 8.55