US3135890A

US3135890A - Flexible connection between cathode and plural section focusing electrode

Info

Publication number: US3135890A
Application number: US88115A
Authority: US
Inventors: Heil Oskar
Original assignee: Eitel Mccullough Inc
Current assignee: Varian Medical Systems Inc
Priority date: 1961-02-09
Filing date: 1961-02-09
Publication date: 1964-06-02
Anticipated expiration: 1981-06-02

Description

June 2, 1964 Q E L 3,135,890

FLEXIBLE CONNECTION BETWEEN CATHDDE AND PLURAL SECTION FOCUSING ELECTRODE Filed Feb 9, 1961 U 4 5 INVENTOR. OSKAR HE/L 7 ATTORNEY United States Patent 3,135,899 FLEXIBLE CGNNECTION BETWEEN CATH- ODE AND PLURAL SECTIQN FGCUSING ELECTRGBE km- Heii, San Mateo, (Iaiif, assignor to Eitel- Mcflullough, Inn, San (Carlos, Calif., 21 corporation of Qalifornia Filed Feb. 9, 1961, Ser. No. 88,115 5 Claims. (Cl. 313-83) This invention relates generally to an electron gun, and more particularly to a cathode and focusing electrode arrangement for said gun.

In many appl cations, concave cathode emitting surfaces are employed so that the electric fields between the cathode and anode have a configuration such that the electrons emitted by the cathode are focused to form a beam of small cross-section.

However, near the rim of the cathode surface there are fringing fields. As a result, electrons emitted near the rim portion of the cathode are not properly focused and tend to scatter.

To overcome this difliculty, it is conventional practice to provide a solid ring placed adjacent the rim of the cathode md electrically connected thereto. The ring provides a continuation of the cathode surface wh reby the fields near the rim of the cathode are not distorted. The rin is generally called a focusing electrode. It is preferably made of a metal which has a high work function and is kept relatively cool so that it does not emit electrons.

A difficulty with this conventional structure is that the cathode and focusing electrode have different coefiicients of thermal expansion and that the focusing electrode operates at a cooler temperature than the cathode. Thus, as the temperature changes, the diameters of the cathode and focusing electrode change by different amounts and the focusing electrode no longer provides a precise continuation of the cathode surface. As a result the fields at the rim of the cathode are again distorted.

It is, therefore, a general object of the present invention to provide an improved electron gun in which the detrimental effects due to differences in thermal expansion of the cathode and focusing electrode are minimized.

It is another object of the present invention to provide an improved cathode assembly which includes a segmented focusing electrode supported from the cathode.

It is another object of the present invention to provide a cathode assembly having a segmented focusing electrode with the segments attached to the cathode in such a manner that relative movement in a tangential direction with respect to the cathode is encouraged, whereas all other relative movement is inhibited.

These and other objects of the invention are, in general, achieved by making the focusing electrode in slightly spaced arcuate segments. The objects are even more fully achieved by mounting the segments on the cathode with flexible plates, that is, plates which may be bent or flexed in a direction perpendicular to their faces and which are relatively rigid in directions parallel thereto. The plates are disposed so that the plane of their faces extends radially of the focusing electrode and cathode. Thus, when the cathode is heated to become emissive, and the segments and cathode expand at different rates, the relative motion between the segments and cathode occurs only in a tangential direction, which motion is permitted by the flexible plates. Any tendency for the segments to move in a radial direction with respect to the cathode is prevented by the rigidity of the plates in an edgewise direction.

The foregoing and other objects of the invention will be more clearly apparent from the following description when taken in conjunction with the accompanying drawing.

Referring to the drawing:

FIGURE 1 is a schematic showing of an electron gun of the type to which the present invention may be applied;

FIGURE 2 is an enlarged view of a cathode assembly according to the present invention;

FEGURE 3 is a plan view of the cathode assembly of FIGURE 2;

FIGURE 4 is an enlarged view showing the mounting of the focusing electrode on the cathode according to the present invention; and

FIGURE 5 is a view taken along the line 55 of FIG- URE 4.

Referring to FIGURE 1, there is shown a dish-shaped cathode 11 having an emitting surface 12. The cathode illustrated is indirectly heated by the heater schematically shown at 13. A focusing electrode 14 is disposed adjacent the rim 16 of the cathode. The dotted lines 17 schematically illustrate the trajectory of the electrons emitted from the surface 12. The anode 18 includes an aperture 19 through which the electrons are projected.

Referring to FIGURES 2 and 3, the cathode structure is illustrated in more detail. Closely spaced adjacent the rim 16 of the cathode are focusing

electrode segments

14a, 14b, and 140. It will become apparent that, although three segments are illustrated for purposes of description, the essential feature is that the focusing electrode be segmented to thereby enable expansion and contraction of the same.

The focusing electrode segments are mounted near their ends to the cathode. For this purpose, lugs 21 are suitably secured to the cathode surface as, for example, by welding. Similarly, lugs 22 are secured near the ends of the focusing electrode segments. A flexible metal plate 23 is then secured to the faces of the

lugs

21 and 22 as, for example, by welding and serves to support the segments adjacent the rim 16. It is observed that the plate is disposed perpendicular to the periphery of the cathode and focusing electrode. It prevents movement between the segments and rim so that the gap 24 between the focusing electrode and cathode remains substantially constant. The plates 23 also prevent relative radial movement between the cathode and focusing electrode segments since the plates are not flexible parallel to their faces, that is, in the plane of the paper in FIGURE 5. Consequently, the inner surface 26 of the focusing electrode segments will always lie in line with the inner edge of rim 16 of the cathode.

It is further observed that the flexible plates 23 are mounted so that they will flex or bend in a direction which is tangential to the outer surfaces of the cathode. Thus, means are provided whereby the ends of the focusing segents may move in a tangential direction to accommodate the diflerences in thermal expansion. The plates may flex or bend to accommodate the increased or decreased relative length of the circumference of the cathode and the segments.

Preferably, the surface 26 of the focusing electrode is disposed at an angle with respect to the adjacent continuation of the surface 12. This angle is shown by the arrow 27, FIGURE 5, which extends between the line 28 tange. tial to the cathode surface and a line 29 tangential to the surface of the electrode. In accordance with well known theory, the angle indicated by arrow 27 should be in the order of between 20 and 25 to provide proper focusing and minimize distortions of the field.

There is provided a segmented focusing electrode in which the spacing between segments provides room for thermal expansion. The segments are so mounted that they will form a continuation of the cathode surface regardless of the thermal expansion. Likewise, the seg- 3 ments are mounted so that the gap between the focusing electrode and the cathode remains substantially constant. However, the segments lengthen and shorten with respect to the rim of the cathode with the flexible mounting plates providing means for accommodating any differences in thermal expansion between the segments and cathode.

I claim:

1. An electron gun comprising a cathode including a dish-shaped emitting surface, an anode, and a focusing electrode, said focusing electrode comprising a plurality of arcuate segments spaced slightly apart at their ends, and means connecting said segments to the rim of said emitting surface, said connecting means being flexible in a direction which permits said segments to expand and contract along the line of their curvature.

2. An electron gun comprising a cathode including a dish-shaped emitting surface, an anode, a focusing electrode disposed adjacent said cathode and forming a continuation of said cathode emitting surface, said focusing electrode including at least two segments, flexible plates having one end mounted on the segment and the other end on the cathode serving to support said segments from the cathode.

3. Acathode assembly including a dish-shaped emitting surface, a focusing electrode disposed adjacent the rim 4 ment of the segments with respect to the cathode in a radial direction is minimized. i

4. A cathode assembly including a dish-shaped emitting surface, a focusing electrode disposed adjacent the rim of the dish-shaped emitting surface and forming a continuation of said surface, said focusing electrode including at least two segments, cooperating mounting means mounted near the ends of each segment and on adjacent portions of the cathode, flexible plates having their ends secured to the adjacent mounting means on the segments and cathode, said plates being disposed with their'faces substantially perpendicular to the periphery of associated segment and cathode to thereby prevent relative radial movement of the segments with respect to the cathode whereby the focusing electrode surface continuously forms a continuation of the cathode emitting surface.

5 An electron gun comprising a circular cathode and a circular focusing electrode, said focusing electrode comprisingiat least two individual arcuate segments, at least one support connecting each of said segments to said cathode, said support for each segment providing a rigid connection between said cathode and the respective segment in a radial direction whereby radial expansion and contraction of said cathode is transmitted to and followed by said focus electrode, and said support for each segment permitting the respective segment to expand and contract along its arcuate length relative to the cathode whereby the ends of the segments can move toward and away from each other.

References Cited in the file of this patent UNITED STATES PATENTS

Claims

1. AN ELECTRON GUN COMPRISING A CATHODE INCLUDING A DISH-SHAPED EMITTING SURFACE, AN ANODE, AND A FOCUSING ELECTRODE, SAID FOCUSING ELECTRODE COMPRISING A PLURALITY OF ARCUATE SEGMENTS SPACED SLIGHTLY APART AT THEIR ENDS, AND MEANS CONNECTING SAID SEGMENTS TO THE RIM OF SAID