US2355795A - Electrode system - Google Patents

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US2355795A
US2355795A US455043A US45504342A US2355795A US 2355795 A US2355795 A US 2355795A US 455043 A US455043 A US 455043A US 45504342 A US45504342 A US 45504342A US 2355795 A US2355795 A US 2355795A
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anode
cathode
electrode
point
electron
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US455043A
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Myron S Glass
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AT&T Corp
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Bell Telephone Laboratories Inc
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01JELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
    • H01J29/00Details of cathode-ray tubes or of electron-beam tubes of the types covered by group H01J31/00
    • H01J29/46Arrangements of electrodes and associated parts for generating or controlling the ray or beam, e.g. electron-optical arrangement
    • H01J29/48Electron guns
    • H01J29/488Schematic arrangements of the electrodes for beam forming; Place and form of the elecrodes

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  • This invention relates to electrode systems, commonly referred to as electron guns, for electron discharge devices and more particularly to lectron guns for cathode ray devices of the magnetic focussing type.
  • Electron guns of known construction comprise, in general, a cathode and a pair of electrodes, such as a beam forming electrode and afirst anode, in cooperative relation with the cathode for concentrating the electrons emanating from the cathode into a stream of restricted cross section.
  • the first anode is followed frequently by an accelerating electrode or second anode.
  • electrostatic focus'sing of the concentrated electron stream entails a fairly critical ratio of the potentials upon the first and second anodes.
  • One object of the invention is to obtain magnetic focussing of an electron stream in electron beam dischargedevices, substantially independent of the potential of the second anode throughout a wide range of such potential.
  • one object of this invention is to construct an electron gun substantially free from electrostatic lens effects at the anode thereof, due to the action of this anode and the accelerating electrode in cooperative relation therewith.
  • an electron gun comprises an axially symmetrical electrode system including a cathode, a centrally apertured anode, and a beam-forming or modulating electrode, the anode andbeamforming electrode having juxtaposed surfaces of predetermined configurations such that the electrons emanating from the cathode are concentrated into a beam converging upon a point on the axis of the system.
  • the electrodes of the gun are so constructed and arranged that the point aforenoted lies beyond thesurface of the anode farthest from the cathode, the ,anode is provided with a disc havingalimiting aperture substantially at this point and the anode surface mentioned and the supporting element for the disc are made such that the electric field in the vicinity of the limiting aperture is distorted so that at this aperture the electrons issue with relatively low velocity and are strongly accelerated by th elec-. tric field due to the second anode without any substantial electrostatic focussing thereof.
  • Fig. 1 is a perspective view mainly in section of an electron discharge device including an electron gun illustrative of one embodiment of this invention.
  • Fig. 2 is an enlarged sectional view of the electron gun included in the device shown in Fig. 1.
  • the electron discharge device illustrated in Fig. 1 comprises an enclosing vessel having a cylindrical neck portion In and a flaring portion ll terminating in an end Wall I2 the inner surface of which has thereon a fluorescent screen or coating l3.
  • an electron gun designated generally as I5 the gun comprising axially symmetrical electrodes, described hereinafter, and being in alignment with the screen [3.
  • the inner wall of the neck and flaring portions Ill and H of the enclosing vessel has thereon an electrically conductive coating l6, which may be formed, for example, by colloidal graphite, andto which electn'cal connection may be established by a wire ll sealed to and extending through the wall of the neck portion III.
  • This coating as shown in the drawing, extends from adjacent the electron gun l5 to adjacent the fluorescent screen 13 and serves as the second anode of the device.
  • Encompassing the neck portion ID in the vicinity of the electron gun I5 is a magnetic coil 18 for focussing the electron stream produced by the gun, upon the fluorescent screen l3.
  • Two pairs of deflecting coils l9, only three coils being shown, are mounted in space quadrature adjacent the wall of the flaring portion H and are utilized to deflect the electron stream thereby to produce a trace upon the screen I3.
  • the electron gun as shown more clearly in Fig. 2, comprises an annular, metallic foundationmember or plate 20 to which there issecured a flanged metallic support or collar 2
  • mounts a beamv formtype cathode which includes a cathode member 28 having a concave electron emissive surface 29, and a heater filament 30.
  • the beam-forming or modulating electrode 22 is provided with a frusto-conical inner surface 3
  • and 32 are of such configuration and so arranged, for example, in accordance with my Patent 2,268,194 noted hereinabove, that they conform substantially to equipotential boundaries of an electric field such that the electrons emanating from the surface 29 are con-- centrated into a converging beam substantially focused upon a point P upon the axis of the electrode system.
  • a metallic member or disc 33 Positioned in a plane passing through the point P is a metallic member or disc 33 having a central limiting aperture, this member being supported by a cylindrical metallic tube 34 fitted and secured in the central aperture in the anode 21'.
  • the surface 35 of the anode which encompasses the disc 33 and tube 34 corresponds substantially to the surface 32 and thus conforms substantially to an equipotential surface of the field between the surfaces 32 and 33.
  • the electrons emanating from the cathode surface 29 converge upon the point P. If the disc 3-3 and tube 34 were absent, because of the potential difference between the anode 27 and the second anode I 6 the region adjacentthe surface 35 would act as a strong electrostatic electron lens; the effect of which would be dependent largely upon the potentials of the anodes. However, the disc 33 and tube 34 distort the electric field in front of the surface 35 and adjacent the limiting aperture and this together with the fact that the limiting aperture in the disc 33is at the region of beam crossover substantially eliminates electrostatic focussing effects upon the electrons issuing from the aperture. At the region of the aperture the electrons are subjected to a strong accelerating field and are projected at high velocity toward the screen l3.
  • the electrons are focussed readily by the magnetic field of the coil is and the focussing is substantially independent of the potential of the second anode l6 throughout a range of values for this potential.
  • the device may be operated with a range of potentials upon the second anode without substantial alteration of the focussing and without adjustment of the magnetic field with changes in this potential.
  • An electrode system for electron discharge devices comprising a cathode, a first anode opposite said cathode, a beam forming electrode between said cathode and said first anode, said electrode and anode having aligned apertures therein and having their facing surfaces of predetermined configurations to converge electrons emanating from said cathode substantially upon a point in front of the face of said anode facing away from said cathode, a second anode extending from the vicinity of said face of said first anode in the direction away from said cathode,
  • said means comprising a conductive member electrically integral with said first anode, extending transversely to the axis of alignment of said apertures and of smaller transverse dimensions than said face, said conductive member having a limiting aperture therein substantially at said point.
  • An electron gun comprising a cathode, a centrally apertured anode in alignment with said cathode and having a dished surface facing away from said cathode, a beam-forming electrode between said cathode and said anode, the facing surfaces of said anode and said electrode being; of predetermined configurations to converge electrons emanating from said cathode substantially upon a point in front of said dished surface, and a conductive member having a restricted aperture therein mounted within thev space bounded by said dished surface, alignment with the aperture, in said anode and substantially at said point, said conductive member being connected electrically to said anode.
  • An electron'gun comprising a cathode, an anode having a centrally apertured dished portion in alignment with said cathode, the concave surface of said portion facin away from said.
  • a hollow beam-forming electrode having an inner wall flaring from said cathode to-. ward said dished portion, the convex surface of said portion and said flaring wall being of predetermined configurations to converge.
  • An electron gun comprising an axially symmetrical electrode system including a cathode, a hollow beam-forming electrode adjacent said cathode and havin therein a frusto-conical passageway flaring away from said cathode, an anode having a centrally apertured concavoconvex portion extending into the larger end of said passageway, the convex surface of said portion facing said cathode, said convex surface and the bounding wall of said passageway being of predetermined configurations whereby electrons emanating from said cathode are substantially focussed upon a point on the axis of said system in front of the concave surface of said anode portion, a tubular metallic member within said portion and extending from the aperture therein to the region of said point, and a centrally apertured, metallic disc member mounted upon said 10 tubular member substantially at said point.

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Description

Aug. 1944. M. .5 GLASS 2,355,795
ELECTRODE SYS'TEM Filed Aug. 17, 1942 INVENTOR BY MS. GLASS Q Awm M ATTORNEY Patented Aug. 15, 1944 UNITED STATES PATENT OFFICE ELECTRODE SYSTEM Myron S. Glass, West Orange, N. J., assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application August 17, 1942, Serial No. 455,043
Claims.
This invention relates to electrode systems, commonly referred to as electron guns, for electron discharge devices and more particularly to lectron guns for cathode ray devices of the magnetic focussing type.
Electron guns of known construction, such as disclosed in my Patent 2,268,194, granted December 30, 1941, comprise, in general, a cathode and a pair of electrodes, such as a beam forming electrode and afirst anode, in cooperative relation with the cathode for concentrating the electrons emanating from the cathode into a stream of restricted cross section. In cathode ray devices, the first anode is followed frequently by an accelerating electrode or second anode. As noted in myipatentabove identified, electrostatic focus'sing of the concentrated electron stream entails a fairly critical ratio of the potentials upon the first and second anodes. On the other hand, if magnetic focussing of the stream is utilized, because of the electriclens effect at the first anode due to the potential differenc between the two anodes, the magnetic field and the potential of the second anode must be correlated and any substantial change in the potential necessitates adjustment of the magnetic field to realize the desired focussing. Hence, operation of the device is complicated.
One object of the invention is to obtain magnetic focussing of an electron stream in electron beam dischargedevices, substantially independent of the potential of the second anode throughout a wide range of such potential. Stated in another way, one object of this invention is to construct an electron gun substantially free from electrostatic lens effects at the anode thereof, due to the action of this anode and the accelerating electrode in cooperative relation therewith.
In one illustrative embodiment of this invention, an electron gun comprises an axially symmetrical electrode system including a cathode, a centrally apertured anode, and a beam-forming or modulating electrode, the anode andbeamforming electrode having juxtaposed surfaces of predetermined configurations such that the electrons emanating from the cathode are concentrated into a beam converging upon a point on the axis of the system.
1 In accordance with one feature of this invention, the electrodes of the gun are so constructed and arranged that the point aforenoted lies beyond thesurface of the anode farthest from the cathode, the ,anode is provided with a disc havingalimiting aperture substantially at this point and the anode surface mentioned and the supporting element for the disc are made such that the electric field in the vicinity of the limiting aperture is distorted so that at this aperture the electrons issue with relatively low velocity and are strongly accelerated by th elec-. tric field due to the second anode without any substantial electrostatic focussing thereof.
The invention and the aforenoted and other features thereof will be understood more clearly and fully from the following detailed description with reference to the accompanying drawing in which:
Fig. 1 is a perspective view mainly in section of an electron discharge device including an electron gun illustrative of one embodiment of this invention; and
Fig. 2 is an enlarged sectional view of the electron gun included in the device shown in Fig. 1.
Referring now to the drawing, the electron discharge device illustrated in Fig. 1 comprises an enclosing vessel having a cylindrical neck portion In and a flaring portion ll terminating in an end Wall I2 the inner surface of which has thereon a fluorescent screen or coating l3. Mounted within the neck portion l0 and supported by the leading in conductors I4 is an electron gun designated generally as I5, the gun comprising axially symmetrical electrodes, described hereinafter, and being in alignment with the screen [3.
The inner wall of the neck and flaring portions Ill and H of the enclosing vessel has thereon an electrically conductive coating l6, which may be formed, for example, by colloidal graphite, andto which electn'cal connection may be established by a wire ll sealed to and extending through the wall of the neck portion III. This coating, as shown in the drawing, extends from adjacent the electron gun l5 to adjacent the fluorescent screen 13 and serves as the second anode of the device.
Encompassing the neck portion ID in the vicinity of the electron gun I5 is a magnetic coil 18 for focussing the electron stream produced by the gun, upon the fluorescent screen l3. Two pairs of deflecting coils l9, only three coils being shown, are mounted in space quadrature adjacent the wall of the flaring portion H and are utilized to deflect the electron stream thereby to produce a trace upon the screen I3.
The electron gun, as shown more clearly in Fig. 2, comprises an annular, metallic foundationmember or plate 20 to which there issecured a flanged metallic support or collar 2|. The support or collar 2| mounts a beamv formtype cathode which includes a cathode member 28 having a concave electron emissive surface 29, and a heater filament 30.
The beam-forming or modulating electrode 22 is provided with a frusto-conical inner surface 3| and the surface 32 of the central portion of the anode 21 facing the surface 3| is convex. The surfaces 29, 3| and 32 are of such configuration and so arranged, for example, in accordance with my Patent 2,268,194 noted hereinabove, that they conform substantially to equipotential boundaries of an electric field such that the electrons emanating from the surface 29 are con-- centrated into a converging beam substantially focused upon a point P upon the axis of the electrode system. For example, these surfaces may conform to equipotential boundaries of field corresponding to a potential distribution of E=Kr along the axis, where E is the potential on the axis at a distance a; from the origin of the system and K is a constant.
Positioned in a plane passing through the point P is a metallic member or disc 33 having a central limiting aperture, this member being supported by a cylindrical metallic tube 34 fitted and secured in the central aperture in the anode 21'. The surface 35 of the anode which encompasses the disc 33 and tube 34 corresponds substantially to the surface 32 and thus conforms substantially to an equipotential surface of the field between the surfaces 32 and 33.
As pointed out heretofore, the electrons emanating from the cathode surface 29 converge upon the point P. If the disc 3-3 and tube 34 were absent, because of the potential difference between the anode 27 and the second anode I 6 the region adjacentthe surface 35 would act as a strong electrostatic electron lens; the effect of which would be dependent largely upon the potentials of the anodes. However, the disc 33 and tube 34 distort the electric field in front of the surface 35 and adjacent the limiting aperture and this together with the fact that the limiting aperture in the disc 33is at the region of beam crossover substantially eliminates electrostatic focussing effects upon the electrons issuing from the aperture. At the region of the aperture the electrons are subjected to a strong accelerating field and are projected at high velocity toward the screen l3.
Because of the absence of electrostatic lens effects in the region of the limiting aperture, the electrons are focussed readily by the magnetic field of the coil is and the focussing is substantially independent of the potential of the second anode l6 throughout a range of values for this potential. Thus, the device may be operated with a range of potentials upon the second anode without substantial alteration of the focussing and without adjustment of the magnetic field with changes in this potential. Hence, it will be appreciated that flexibilityof operation and also high focussing efficiency are realized; g
Although a specific embodiment of this invention has been shown and described, it will be understood that it is but illustrative and that various modifications may be made therein without departing from the scope and spirit of this invention as defined in the appended claims.
What is claimed is:
1. An electrode system for electron discharge devices comprising a cathode, a first anode opposite said cathode, a beam forming electrode between said cathode and said first anode, said electrode and anode having aligned apertures therein and having their facing surfaces of predetermined configurations to converge electrons emanating from said cathode substantially upon a point in front of the face of said anode facing away from said cathode, a second anode extending from the vicinity of said face of said first anode in the direction away from said cathode,
and means for distorting the fields adjacent said face and said point, said means comprising a conductive member electrically integral with said first anode, extending transversely to the axis of alignment of said apertures and of smaller transverse dimensions than said face, said conductive member having a limiting aperture therein substantially at said point.
2. An electron gun comprising a cathode, a centrally apertured anode in alignment with said cathode and having a dished surface facing away from said cathode, a beam-forming electrode between said cathode and said anode, the facing surfaces of said anode and said electrode being; of predetermined configurations to converge electrons emanating from said cathode substantially upon a point in front of said dished surface, and a conductive member having a restricted aperture therein mounted within thev space bounded by said dished surface, alignment with the aperture, in said anode and substantially at said point, said conductive member being connected electrically to said anode.
3. An electron'gun comprising a cathode, an anode having a centrally apertured dished portion in alignment with said cathode, the concave surface of said portion facin away from said.
cathode, a hollow beam-forming electrode having an inner wall flaring from said cathode to-. ward said dished portion, the convex surface of said portion and said flaring wall being of predetermined configurations to converge. electrons emanating from said cathode substantially upon a point in front of said concave surface and in alignment with the aperture in said dished portion, a conductive'member having a: restricted aperture therein at substantially said point, and a slender hollow conductive member within the r i n' u d y saidoncave ur ace, coaxial with said apertures a d mounting said first conductive member from said anode.
n l n un com ris n an axially sym= metrical electrode system including a cathode, an anode and a beam-fornnng electrode between said cathode and said anode, said anode and beam-forming electrode being, centrally aper-. tured and having opposed surfaces of predetermined configurati'ons to converge electrons emanating from said cathode substantially upon a point on the axis of said system in front of the surface of said anode facing away from said cathode, said last-mentioned surface having a dished central portion, a disc member having a limiting aperture at substantially said point, and a tubular member of a diameter small in comparison to the diameter of said portion and co axial with said anode mounting said disc mem ber from said anode.
5. An electron gun comprising an axially symmetrical electrode system including a cathode, a hollow beam-forming electrode adjacent said cathode and havin therein a frusto-conical passageway flaring away from said cathode, an anode having a centrally apertured concavoconvex portion extending into the larger end of said passageway, the convex surface of said portion facing said cathode, said convex surface and the bounding wall of said passageway being of predetermined configurations whereby electrons emanating from said cathode are substantially focussed upon a point on the axis of said system in front of the concave surface of said anode portion, a tubular metallic member within said portion and extending from the aperture therein to the region of said point, and a centrally apertured, metallic disc member mounted upon said 10 tubular member substantially at said point.
MYR-ON S. GLASS.
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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2484721A (en) * 1942-03-14 1949-10-11 Cossor Ltd A C Electrode gun such as is used in cathode-ray tubes
US2509053A (en) * 1947-11-08 1950-05-23 Bell Telephone Labor Inc Space current device employing mutually bombarded electrodes
US2509763A (en) * 1947-04-09 1950-05-30 Hartford Nat Bank & Trust Co Electric discharge tube with directional electron beam
US2534571A (en) * 1947-07-10 1950-12-19 Cinema Television Ltd Circuit for cathode-ray tubes and method of operating the same
US2603763A (en) * 1944-01-13 1952-07-15 Henry V Neher Vacuum tube oscillator
US2632130A (en) * 1947-11-28 1953-03-17 Joseph F Hull High current density beam tube
US2687490A (en) * 1949-09-22 1954-08-24 Sperry Corp High-frequency beam tube device
US2740919A (en) * 1953-06-25 1956-04-03 Farrand Optical Co Inc Electron lens
US2811667A (en) * 1954-12-09 1957-10-29 Hughes Aircraft Co Electron gun
US2825837A (en) * 1954-03-02 1958-03-04 Hazeltine Research Inc Electrostatic focusing system
US2852716A (en) * 1954-07-14 1958-09-16 Gen Electric Cathode ray tube and electron gun therefor
US2907916A (en) * 1956-08-17 1959-10-06 Rca Corp Electron gun structure
US3058028A (en) * 1948-05-24 1962-10-09 Wilkes Gilbert Thermionic type detector for microwave signals

Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2484721A (en) * 1942-03-14 1949-10-11 Cossor Ltd A C Electrode gun such as is used in cathode-ray tubes
US2603763A (en) * 1944-01-13 1952-07-15 Henry V Neher Vacuum tube oscillator
US2509763A (en) * 1947-04-09 1950-05-30 Hartford Nat Bank & Trust Co Electric discharge tube with directional electron beam
US2534571A (en) * 1947-07-10 1950-12-19 Cinema Television Ltd Circuit for cathode-ray tubes and method of operating the same
US2509053A (en) * 1947-11-08 1950-05-23 Bell Telephone Labor Inc Space current device employing mutually bombarded electrodes
US2632130A (en) * 1947-11-28 1953-03-17 Joseph F Hull High current density beam tube
US3058028A (en) * 1948-05-24 1962-10-09 Wilkes Gilbert Thermionic type detector for microwave signals
US2687490A (en) * 1949-09-22 1954-08-24 Sperry Corp High-frequency beam tube device
US2740919A (en) * 1953-06-25 1956-04-03 Farrand Optical Co Inc Electron lens
US2825837A (en) * 1954-03-02 1958-03-04 Hazeltine Research Inc Electrostatic focusing system
US2852716A (en) * 1954-07-14 1958-09-16 Gen Electric Cathode ray tube and electron gun therefor
US2811667A (en) * 1954-12-09 1957-10-29 Hughes Aircraft Co Electron gun
US2907916A (en) * 1956-08-17 1959-10-06 Rca Corp Electron gun structure

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