US2759117A

US2759117A - Electron lens

Info

Publication number: US2759117A
Application number: US288131A
Authority: US
Inventors: Harold J Hasbrouck
Original assignee: Farrand Optical Co Inc
Current assignee: Farrand Optical Co Inc
Priority date: 1952-05-16
Filing date: 1952-05-16
Publication date: 1956-08-14
Anticipated expiration: 1973-08-14

Description

Aug- 14, 1956 AH. J. HAsBRoUcK 2,759,117

ELEcTRoN LENS Filed May 16, 1952 ATTORNE 5 United States Patent O ELECTRON LENS Harold J. Hasbrouck, Teaneck, N. J., assigner to Farrand 'Optical Co., Inc., New York, N. Y., a corporation of New York Application May 16, 1952, Serial No. 288,131

7 laims. (Cl. 313-82) This invention relates to electron lenses, and more particularly to electron lenses of the electrostatic type 1n which a plurality of apertured diaphragm electrodes, usually three in number, are supported in coaxial relatlon, with one or more of the electrodes, usually the central electrode, electrically insulated from the others `such a-s the outer or end electrodes. Such lenses are useful in electron microscopes and similar apparatus.

When three electrodes are employed it is customary for the end electrodes to be connected together electrically and for the middle electrode to be insulated therefrom, .to produce what is called a unipotential lens.

The invention will be hereinafter described in terms of its application to unipotential lenses, Yalthough it is applicable to any type of electrostatic electron lens, including electron mirrors, in which two or more electrodes of diaphragm type are to be supported together coaxially with one or more electrodes in electrical insulation from one or more other electrodes.

The invention provides an electron lens of the electrostatic type having an improved form of insulating support for the central electrode. According to the invention, the central electrode is supported from a metallic sleeve or barrel, to which the end electrodes are removably aixed, by means of a multi-section ceramic insulator, made of glass for example. The insulator sections are aixed to the barrel by soldering at suitably metalized surfaces on the sections, and the central electrode is similarly aixed to the sections at other metalized surfaces on the sections. The ceramic insulator provides good insulation and high mechanical, dimensional stability, while the plural nature of the sections into which it is divided permits the insulator to withstand the thermal stresses incident to assembly by means of soldering.

The invention will now be further described in terms of a preferred embodiment by reference to the accompanying drawings in which Fig. l is an axial section through a lens according to the invention; and

Fig. 2 is a sectional view taken along the line 2-2 of Fig. l.

The lens of Figs. l and 2 includes a generally cylindrical lens barrel or sleeve 2, front, middle and

rear diaphragm electrodes

4, 6 and 8, respectively, and an insulator generally indicated at 10 for support of the central electrode. The front and rear electrodes are fastened to the barrel by means of screws and locating dowels which permit disassembly of the lens for cleaning and its reassembly without change in the relative circumferential positions of the electrodes. The barrel is provided on its outer surface with annular rails or mounting surfaces 12 which are accurately coaxial with the electrode apertures, for proper alignment of the lens in the finished microscope. The barrel and electrodes are advantageously made of aluminum, since this metal can be machined to a perfect finish directly on a lathe without subsequent polishing operations. This makes it possible to generate the apertures in all three electrodes together with the rails on 2,759,117 Patented Aug. 14, 1.956

ICC

the barrel While Ythe lens elements so roperated on are mounted on a lathe, thus insuring an accurate coaxialrelation of the three apertures together with the mountingrails of the lens.

For support of the central electrode 6, the barrel is provided with an inwardly extending annular shoulder 14 in which is formed a groove 16, extending vgenerally axially of the barrel. The groove 16 accommodates a bra-ss ring 18 provided for soldering to the metalized `surfaces `on the sections of Vthe insulator 10. The brass ring is provided so `that a low temperature :solder may be used on the insulator sections. The ring 18 on the other hand may be soldered to the aluminum barrel with the high temperavture solder necessary for bonding to that metal, before the insulator is assembled to the lens.

The electrode 6 contains a similar groove 20 and brass ring 22.

The insulator 10 seen in section in Fig. l is seen in elevation in Fig. 2 and is made of glass or of a ceramic material. It conforms generally to a solid `of revolution Whose figure contains a reverse bend or S-curve to provide additional elasticity for resistance to thermal stress. The insulator is sawn along meridian planes into a plurality of equal sections or sectors, to provide a plurality of sections ftting with clearance from each other. Eight sections have proved to be a satisfactory degree of subdivision of the complete insulator.

In manufacture, the sections 11 are metalized on their end surfaces which are to join with the

brass rings

18 and 22, by evaporation of suitable metals thereon such as silver and chromium, the other surfaces of the sections being protected by a lacquer mask. The surfaces of the insulator sections so metalized and the rings 1S and 22 are then further tinned with a low temperature solder for bonding together. For assembly of the barrel and central electrode, the barrel is set with its axis upright, and the sections 11 are supported on the ring 1S and evenly spaced from each other by means of a fixture. The entire insulator is then warmed to reduce lstresses in the insulator sections and the sections are soldered to the ring 18 by the application of heat. After the sections have been soldered to the barrel at the ring 18, the barrel is inverted and the insulator sections are similarly soldered to the central electrode at its ring 22.

After cleaning of any soldering ux and excess particles of solder from the insulator and from the spaces between its sections 11, the end electrodes may be assembled to the lens.

The lens of the invention is preferably manufactured according to the method described and claimed in the copending application of Clair L. Farrand, Serial No. 296,674, led July l, 1952, assigned to the assignee hereof. According to this method, the electrode apertures and the lens mounting surfaces are formed in boring and turning operations which are performed whi'le the lens elements which are to bear these aperture and mounting surfaces are mounted on a lathe. Before the aperture and lens mounting surfaces are formed, the central electrode is permanently fastened to the barrel and the end electrodes and ylens barrel are mounted together with screws and dowels which define a unique relation in which the lens elements can be assembled together. One end electrode is then fastened to the lathe, defining an axis of rotation for the entire lens. All lens aperture and lens mounting surfaces are then formed on the appropriate lens elements without removing this axis-defining electrode from the lathe, the `other lens elements being fastened to each other and to this axis-defining end electrode in the proper spatial order or removed therefrom, as required to give to the operator access to the lens elements to be operated on.

While the invention has been described in terms of a preferred embodiment, various modifications may be made in the lens illustrated Without departing from the invention as dei-ined in the appended claims.

claim:

1. An electrostatic electron lens comprising a metallic barrel, apertured diaphragm and electrodes atxed to said barrel, a central apertured diaphragm electrode, and a multisection glass insulator whose sections conform to portions of a iigure of revolution limited by meridian plane-s of said figure, said sections supporting said central electrode from said barrel, said insulator sections being soldered to said barrel and to said central electrode.

2. In an electrostatic electron lens, a metallic electrode support of annular shape, an apertured diaphragm electrode, and a multisection ceramicv insulator supporting said electrode from said support, -said insulator comprising a plurality of sections of a solid of revolutions bounded in part by meridian pianos of said solid, said sections having each two metalized surfaces of which one is soldered to said support and the -other to -said electrode.

3. An electrostatic electron lens comprising front, middle and rear apertured diaphragm aluminum electrodes, an aluminum lens barrel, annular grooves in said middle electrode and said barrel, brass rings in said grooves, a glass insulator including a plurality of sections conforming to portions of an annular `solid of revolution bounded by meridian planes of said solid, said solid having end faces equal to the diameters of said rings respectively, said sections having metal coating-s on their surfaces belonging to said end faces, said surfaces being -soldered to said rings.

4. An electrostatic electron lens comprising a generally cylindrical metallic lens barrel, a first brass ring aflxed to said barrel, a plurality of ceramic insulator elements soldered to lsaid rst brass ring, a central electrode, a second brass ring affixed to said central electrode, said second brass ring being Isoldered to said elements, and front and rear electrodes affixed at the ends of said barrel.

5. An electrostatic electron lens comprising a metallic barrel having a grooved `shoulder formed on the inner surface thereof, a brass ring secured in the groove of said shoulder, a central diaphragm electrode having a peripheral groove therein, a brass ring secured in the groove of said electrode, a multisection glass support conforming generally to a solid of revolution having end faces of the diameters of said rings, metal coatings on said end faces, and soldered joints between said end faces and said rings.

6. An electrostatic electron lens comprising an aluminum barrel of annular shape, an aluminum central electrode of apertured diaphragm shape, metallic inserts capable of bonding to llow temperature :solder afxed to said barrel and electrode, and a multisection ceramic insulator conforming to a solid of revolution divided along meridian planes into a plurality of sections, each of said sections having two metalized surfaces soldered one to each of -said inserts.

7. An electrostatic electron lens comprising an aluminum barrel, apertured diaphragm end electrodes secured to said barrel in electrically conductive relation therewith, an aluminum apertured diaphragm central electrode, brass rings secured to said barrel and central electrode, and a multisection glass insulator having metalized surfaces soldered to -said rings to support said central electrode coaxially of said barrel.

References Cited in the le of this patent UNITED STATES PATENTS 2,452,893 Bachman Nov. 2, 1948 2,507,531 Bertein et al May 9, 1950 2,536,878 Fleming Jan. 2, 1951