US2321886A - Electron discharge device - Google Patents
Electron discharge device Download PDFInfo
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- US2321886A US2321886A US385817A US38581741A US2321886A US 2321886 A US2321886 A US 2321886A US 385817 A US385817 A US 385817A US 38581741 A US38581741 A US 38581741A US 2321886 A US2321886 A US 2321886A
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J3/00—Details of electron-optical or ion-optical arrangements or of ion traps common to two or more basic types of discharge tubes or lamps
- H01J3/02—Electron guns
- H01J3/029—Schematic arrangements for beam forming
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10S—TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10S164/00—Metal founding
- Y10S164/04—Dental
Definitions
- This invention relates to electron discharge devices and more particularly to electrode sysgems, commonly referred to as electron guns, for producing a concentrated electron beam in such devices.
- Electron guns comprise, in general, a source of electrons, such as a cathode, and two or more electrodes, one of which is maintained at a positive potential with respect to the electron source and generally designated as the accelerating anode, cooperatively associated with the electron source for concentrating the electrons emanating from the source into a beam and directing the beam toward a suitable target or electrode.
- a source of electrons such as a cathode
- two or more electrodes one of which is maintained at a positive potential with respect to the electron source and generally designated as the accelerating anode, cooperatively associated with the electron source for concentrating the electrons emanating from the source into a beam and directing the beam toward a suitable target or electrode.
- the efficacy of such an electron gun is dependent upon the magnitude of the total beam current in relation to the total electron current emanating from the source and the degree to and uniformity with which the electrons in the beam can be controlled or affected atpoints in the path traversed by the electron beam.
- One general object of this invention is to improve electron guns adapted to produce a hollow electron beam. More specifically, objectsof this inventionare to simplify and to facilitate the construction of electron guns for producing a hollow electron beam and to obtain a high perveance for electron guns, th perveance being defined by the expression I/V where I is the total beam current and V is the potential of the accelerating anode in the electron gun.
- an electron gun comprises a cathode and a pair of beam forming electrodes, one of which is an accelerating anode, associated with the cathode.
- the cathode and the beam forming electrodes are coaxial annular elements and are so constructed and arranged that substantially all of the electrons emanating from the cathode are concentrated into a hollow cylindrical beam in which the electrons traverse rectilinear and subs'tantially parallel paths.
- Fig. 1 is an elevational view partly in section of an'electron beam discharge device including an electron gun constructed in accordance with this invention, 'a portion of the gun being broken away to show the elementsthereof i
- Fig. 2 is a cross-sectional view of the electron gun included in the device illustrated in Fig. l; and
- Fig. 3 is an outline view of a radial section of the electron gun shown in Fig. 2, illustrating the form and relation of the juxtaposed surfaces of the cathode and the beam forming electrodes associated therewith.
- the electron discharge device shown in Fig. 1 comprises an elongated evacuated enclosing vessel l0 having at one endthereof an inwardly extending stem II from which there is supported, by leading-in conductors l2, a target or collector electrode l3.
- an electron gun mounted at the other end of the vessel 10 and in alignment with the electrode I3 is an electron gun, described in detail hereinafter, which projects a beam of electrons toward the target or collector electrode l3.
- the beam may be controlled, for example in intensity, direction. or velocity, by suitable electrodes or sets of electrodes of various forms and arrangements.
- suitable electrodes or sets of electrodes of various forms and arrangements.
- only two such electrodes I4 in the form of annular metallic discs sealed to and extending outside of the enclosing vessel I0, have been shown in the drawing,
- a cathode including an annular plate 15 having in one face thereof a central annular recess IS the surface of which is coated with a material having good thermionic emission characteristics, the cathode plate 15 being cut away as shown at 50 to prevent creepage of the coating material when the gun is operated.
- the gun comprises, also, a beam forming electrode having two annular portions I la and I'll). coaxial with the cathode and spaced to define an annular gap l8 centrally aligned with the recess I6.
- Overlying the beam forming electrode 11 is an accelerating anode having two annular portions I9a and [9b coaxial with the cathode and spaced to define an annular gap 20 in alignment with the gap I8 and the recess I6.
- the gcneratrix of the emissive surface in the recess is is an arc of a circle the center of which lies on a point on the axis XX and within the gap 20.
- the juxtaposed surfaces Hu and 2lb of the two parts of the beam forming electrode l! are cylindrical and stepped and equally spaced from the axis XX.
- the two parts of the accelerating anode have parallel cylindrical flanges 22a and 22b equally spaced from the axis XX and terminating within the narrower portion of the gap (8.
- the cathode, beam forming electrode I! and accelerating anode 19 are dimensioned and related in accordance with the basic principles and method disclosed in Patent 2,268,197 granted December 30, 1941 to John R. Pierce so that substantially all of the electrons emanating from the emissive surface of the cathode are directed along rectilinear paths and constitute in the aggregate at the end of the gap 20 toward the electrode l3, a hollow cylindrical beam.
- the arcuate cathode emissive surface may have a radius of inch, the maximum depth of the recess may be .017 inch and other dimension indicated in Fig. 3 may be as follows:
- the gap 20 may be of a diameter of 5 inch, the flanges 23 and 24 may be M inch in thickness, the flanges 23 being spaced .015 inch from the plate l6, which may be .314 inch in width, and the flanges 24 being spaced inch from the electrode members Fla and llb.
- An electron gun of this construction having the dimensions noted has been found to have a beam formation efficiency of about 95 per cent and has enabled the realization of a perveance of as high as 66 10 with the beam forming electrode I'I operated at zero volts with respect to the cathode and the accelerating anode operated at a potential of 250 volts with respect to the cathode.
- An electron gun constructed in accordance with this invention therefore, enables the attainment of very high efficiency, a high beam current with a relatively low potential on the accelerating anode and a high current beam with a cathode of small dimensions.
- all of the electrode surfaces in the gun are plane or cylindrical so that these electrodes may be fabricated facilely and in quan tity.
- the electron gun produces a thin, hollow cylindrical beam so that efficient and uniform control of the beam is enabled.
- the cathode structure included in the electron gun comprises also a heater element which may be a multiturn resistance coil 25 embedded in an insulating body 26, the heater element being mounted within an annular dished metallic member 21 affixed to the cathode plate i5.
- the dished member 21 is mounted in turn within a pair of nested metallic members 28 and 29 which are secured to one another and one of which is secured to the member 21 as shown in Fig. 2.
- the several members 21, 28 and 29 serve as heat shields whereby heat radiation from the cathode is greatly reduced and eflicient heating of the emissive coating in the recess I6 is obtained.
- the-electron gun may be fabricated as a unitary assembly in which the constituent elements are accurately maintained in the requisite space relation through an insulating ring 30, for exampl of glass, and a multilegged insulating member 3
- the outer portions Ila and I 9a of the beam forming and accelerating electrodes respectively are rigidly mounted on the insulating ring 30 by a plurality of rigid wires 32 and 33 respectively, only one of each of which is shown in Fig. 2, embedded in the ring 30 and are thus maintained in fixed relation.
- the inner portions Ill) and I9?) of the beam forming electrode and the accelerating electrode respectively are rigidly affixed to the insulating body 3
- the two subassemblies thus formed are secured to one another and to the cathode structure by a plurality of rigid wires 36, secured, as by welding, to the base of the heat shield 29 and to rigid wires 31 and 38 aifixed to the portions Ha and Nb of the beam forming electrode, the wires 38 being sealed to one end of the enclosing vessel It], as shown in Fig.
- Current to the heater coil 25 may be supplied through a pair of conductors 4
- An electron gun comprising a cathode having an annular electron emissive surface of sub-' stantial radial width, and means for concentrating electrons emanating from said surface into a hollow cylindrical beam of a thickness substantially less than the radial width of said surface; said means comprising a pair of electrode members in juxtaposition to said cathode and having coaxial annular walls lying on opposite sides of said surface and defining an annular gap axially aligned with said surface. and a second pair of electrode members adjacent said first members and having opposed cylindrical surfaces defining a cylindrical aperture axially aligned with and of materially less width than said gap, said cylindrical surfaces extending into said gap.
- An electron gun comprising a cathode hav" ing an annular electronemissive surface, a beam forming electrode including a disc portion immediately adjacent said cathode and having therein an annular gap in axial alignment with said surface, and an accelerating anode including a disc portion overlying and extending substantially parallel to said disc portion of said beamforming electrode and having an annular aper ture therein in alignment with said gap, said ac celerating anode including also a I I cylindrical portions extending into said gap and pair of coaxial defining an annular passageway in alignment with said surface.
- An electron gun comprising a cathode having an annular electron emissive surface, a beamforming electrode including a disc portion immediately adjacent said cathode and having therein an annular gap in axial alignment with said surface, and an accelerating anode including a disc portion overlying and extending substantially'parallel to said disc portion of said beam-forming electrode and having therein an annular aperture of substantially the same mean diameter as said gap and in axial alignment therewith, said emissive surface being arcuate in radial section and the center of curvature of the generatrix thereof lying within said aperture,
- An electron gun comprising a cathode having an annular electron emissive surface, a beam forming electrode adjacent said cathode and having juxtaposed coaxial surfaces defining an annular gap in axial alignment with said emissive surface, said coaxial surfaces each including a pair of coaxial cylindrical portions of different diameters whereby said gap includes annular portions of diflferent widths, the wider of said annu lar portions being nearest said emissive surface, and an accelerating anode adjacent said beam forming electrode and having therein an annular aperture in alignment with said gap.
- An electron gun in accordance with claim 4 wherein said accelerating anode comprises a pair of coaxial cylindrical portions defining a portion of said aperture and extending into said gap.
- An electron gun comprising a cathode including a plate member having an annular recess therein, the surface of which is coated with a thermionic material, a beam forming electrode including plate portions parallel to said plate member, immediately adjacent thereto and spaced to define an annular gap in alignment with said recess, and an accelerating anode including plate portions immediately adjacent and parallel to said first plate portions and spaced to define an annular opening in alignment with said gap.
- said beam forming electrode includes a cylindrical flange encompassing said plate member of said cathode and said accelerating anode includes a cylindrical flange encompassing said beam forming electrode.
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Description
June 15, 1943- A. E. ANDERSON 2,321,
I ELECTRON DISCHARGE DEVICE Filed March 29, 1941 lNl ENTOR By A.E.ANOER$ON MmaM ATTQRNE V Patented June 15, 1943 2,321,886 ELECTRON DISCHARGE DEVICE Alva Eugene Anderson, New York, N. Y., assignor to Bell Telephone Laboratories, Incorporated, New York, N. Y., a corporation of New York Application March 29, 1941, Serial No. 385,817
9 Claims.
This invention relates to electron discharge devices and more particularly to electrode sysgems, commonly referred to as electron guns, for producing a concentrated electron beam in such devices.
Electron guns comprise, in general, a source of electrons, such as a cathode, and two or more electrodes, one of which is maintained at a positive potential with respect to the electron source and generally designated as the accelerating anode, cooperatively associated with the electron source for concentrating the electrons emanating from the source into a beam and directing the beam toward a suitable target or electrode. As noted in Patent 2,308,800, granted January 19, 1943, to Alva Eugene Anderson, the efficacy of such an electron gun is dependent upon the magnitude of the total beam current in relation to the total electron current emanating from the source and the degree to and uniformity with which the electrons in the beam can be controlled or affected atpoints in the path traversed by the electron beam. As pointed out further in that patent, a high beam current and good control of the beam may be obtained with an electron gun which produces an electron beam hollow throughout a major portion of its length.
One general object of this invention is to improve electron guns adapted to produce a hollow electron beam. More specifically, objectsof this inventionare to simplify and to facilitate the construction of electron guns for producing a hollow electron beam and to obtain a high perveance for electron guns, th perveance being defined by the expression I/V where I is the total beam current and V is the potential of the accelerating anode in the electron gun.
In one illustrative embodiment of this invention,. an electron gun comprises a cathode and a pair of beam forming electrodes, one of which is an accelerating anode, associated with the cathode.
In accordance with one feature of this invention, the cathode and the beam forming electrodes are coaxial annular elements and are so constructed and arranged that substantially all of the electrons emanating from the cathode are concentrated into a hollow cylindrical beam in which the electrons traverse rectilinear and subs'tantially parallel paths.
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 an elevational view partly in section of an'electron beam discharge device including an electron gun constructed in accordance with this invention, 'a portion of the gun being broken away to show the elementsthereof i Fig. 2 is a cross-sectional view of the electron gun included in the device illustrated in Fig. l; and
Fig. 3 is an outline view of a radial section of the electron gun shown in Fig. 2, illustrating the form and relation of the juxtaposed surfaces of the cathode and the beam forming electrodes associated therewith.
Referring now to the drawing, the electron discharge device shown in Fig. 1 comprises an elongated evacuated enclosing vessel l0 having at one endthereof an inwardly extending stem II from which there is supported, by leading-in conductors l2, a target or collector electrode l3. Mounted at the other end of the vessel 10 and in alignment with the electrode I3 is an electron gun, described in detail hereinafter, which projects a beam of electrons toward the target or collector electrode l3. In flowing to the target or collector electrode l3, the beam may be controlled, for example in intensity, direction. or velocity, by suitable electrodes or sets of electrodes of various forms and arrangements. For simplicity of disclosure only two such electrodes I4, in the form of annular metallic discs sealed to and extending outside of the enclosing vessel I0, have been shown in the drawing,
The electron gun, as shown clearly in Figs. 2
and 3, comprises a cathode including an annular plate 15 having in one face thereof a central annular recess IS the surface of which is coated with a material having good thermionic emission characteristics, the cathode plate 15 being cut away as shown at 50 to prevent creepage of the coating material when the gun is operated. The gun comprises, also, a beam forming electrode having two annular portions I la and I'll). coaxial with the cathode and spaced to define an annular gap l8 centrally aligned with the recess I6. Overlying the beam forming electrode 11 is an accelerating anode having two annular portions I9a and [9b coaxial with the cathode and spaced to define an annular gap 20 in alignment with the gap I8 and the recess I6.
As shown clearly in Fig. 3, the gcneratrix of the emissive surface in the recess is is an arc of a circle the center of which lies on a point on the axis XX and within the gap 20. The juxtaposed surfaces Hu and 2lb of the two parts of the beam forming electrode l! are cylindrical and stepped and equally spaced from the axis XX. The two parts of the accelerating anode have parallel cylindrical flanges 22a and 22b equally spaced from the axis XX and terminating within the narrower portion of the gap (8. The parts of the beam forming electrode I! are also provided with depending cylindrical flanges 23 opposite the inner and outer edges of the annular plate I5 of the cathode, as shown in Fig. 2, and the parts of the accelerating anode I9 are provided with similar cylindrical flanges 24 opposite the lateral extremities of the beam forming electrode IT.
The cathode, beam forming electrode I! and accelerating anode 19 are dimensioned and related in accordance with the basic principles and method disclosed in Patent 2,268,197 granted December 30, 1941 to John R. Pierce so that substantially all of the electrons emanating from the emissive surface of the cathode are directed along rectilinear paths and constitute in the aggregate at the end of the gap 20 toward the electrode l3, a hollow cylindrical beam. In a specific embodiment, the arcuate cathode emissive surface may have a radius of inch, the maximum depth of the recess may be .017 inch and other dimension indicated in Fig. 3 may be as follows:
Inches Inches The gap 20 may be of a diameter of 5 inch, the flanges 23 and 24 may be M inch in thickness, the flanges 23 being spaced .015 inch from the plate l6, which may be .314 inch in width, and the flanges 24 being spaced inch from the electrode members Fla and llb.
An electron gun of this construction having the dimensions noted has been found to have a beam formation efficiency of about 95 per cent and has enabled the realization of a perveance of as high as 66 10 with the beam forming electrode I'I operated at zero volts with respect to the cathode and the accelerating anode operated at a potential of 250 volts with respect to the cathode. An electron gun constructed in accordance with this invention, therefore, enables the attainment of very high efficiency, a high beam current with a relatively low potential on the accelerating anode and a high current beam with a cathode of small dimensions. In addition, it will be noted that all of the electrode surfaces in the gun are plane or cylindrical so that these electrodes may be fabricated facilely and in quan tity. Also, the electron gun produces a thin, hollow cylindrical beam so that efficient and uniform control of the beam is enabled.
The cathode structure included in the electron gun comprises also a heater element which may be a multiturn resistance coil 25 embedded in an insulating body 26, the heater element being mounted within an annular dished metallic member 21 affixed to the cathode plate i5. The dished member 21 is mounted in turn within a pair of nested metallic members 28 and 29 which are secured to one another and one of which is secured to the member 21 as shown in Fig. 2. The several members 21, 28 and 29 serve as heat shields whereby heat radiation from the cathode is greatly reduced and eflicient heating of the emissive coating in the recess I6 is obtained.
.As shown in Fig. 2, the-electron gun may be fabricated as a unitary assembly in which the constituent elements are accurately maintained in the requisite space relation through an insulating ring 30, for exampl of glass, and a multilegged insulating member 3|, which also may be of glass. The outer portions Ila and I 9a of the beam forming and accelerating electrodes respectively are rigidly mounted on the insulating ring 30 by a plurality of rigid wires 32 and 33 respectively, only one of each of which is shown in Fig. 2, embedded in the ring 30 and are thus maintained in fixed relation. The inner portions Ill) and I9?) of the beam forming electrode and the accelerating electrode respectively are rigidly affixed to the insulating body 3| by a plurality of rigid wires 34 and 35 embedded in the body 3|, and are thus maintained in fixed relation. The two subassemblies thus formed are secured to one another and to the cathode structure by a plurality of rigid wires 36, secured, as by welding, to the base of the heat shield 29 and to rigid wires 31 and 38 aifixed to the portions Ha and Nb of the beam forming electrode, the wires 38 being sealed to one end of the enclosing vessel It], as shown in Fig. 1, and serving as supports for the electron gun and also as leading-in conductors for the cathode l5, l6 and the beam forming electrode H. The inner and outer portions l9a and H12) of the accelerating anode are connected electrically and mechanically by a rigid wire 33 secured to two of the wires 33 and 35 and having connected thereto a leading-in conductor 40 sealed in one end of the vessel II]. The cathode and the two beam forming electrodes I1 and I9 associated therewith, it will be appreciated, are thus accurately located and fixed in the requisite relation to one another.
Current to the heater coil 25 may be supplied through a pair of conductors 4| sealed in the end wall of the vessel l0.
Although a specific embodiment of the 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 electron gun comprising a cathode having an annular electron emissive surface of sub-' stantial radial width, and means for concentrating electrons emanating from said surface into a hollow cylindrical beam of a thickness substantially less than the radial width of said surface; said means comprising a pair of electrode members in juxtaposition to said cathode and having coaxial annular walls lying on opposite sides of said surface and defining an annular gap axially aligned with said surface. and a second pair of electrode members adjacent said first members and having opposed cylindrical surfaces defining a cylindrical aperture axially aligned with and of materially less width than said gap, said cylindrical surfaces extending into said gap.
'2. An electron gun comprising a cathode hav" ing an annular electronemissive surface, a beam forming electrode including a disc portion immediately adjacent said cathode and having therein an annular gap in axial alignment with said surface, and an accelerating anode including a disc portion overlying and extending substantially parallel to said disc portion of said beamforming electrode and having an annular aper ture therein in alignment with said gap, said ac celerating anode including also a I I cylindrical portions extending into said gap and pair of coaxial defining an annular passageway in alignment with said surface.
3. An electron gun comprising a cathode having an annular electron emissive surface, a beamforming electrode including a disc portion immediately adjacent said cathode and having therein an annular gap in axial alignment with said surface, and an accelerating anode including a disc portion overlying and extending substantially'parallel to said disc portion of said beam-forming electrode and having therein an annular aperture of substantially the same mean diameter as said gap and in axial alignment therewith, said emissive surface being arcuate in radial section and the center of curvature of the generatrix thereof lying within said aperture,
4. An electron gun comprising a cathode having an annular electron emissive surface, a beam forming electrode adjacent said cathode and having juxtaposed coaxial surfaces defining an annular gap in axial alignment with said emissive surface, said coaxial surfaces each including a pair of coaxial cylindrical portions of different diameters whereby said gap includes annular portions of diflferent widths, the wider of said annu lar portions being nearest said emissive surface, and an accelerating anode adjacent said beam forming electrode and having therein an annular aperture in alignment with said gap.
5. An electron gun in accordance with claim 4 wherein said accelerating anode comprises a pair of coaxial cylindrical portions defining a portion of said aperture and extending into said gap.
6. An electron gun in accordance with claim 4 wherein said emissive surface is arcuate in radial section.
7. An electron gun comprising a cathode including a plate member having an annular recess therein, the surface of which is coated with a thermionic material, a beam forming electrode including plate portions parallel to said plate member, immediately adjacent thereto and spaced to define an annular gap in alignment with said recess, and an accelerating anode including plate portions immediately adjacent and parallel to said first plate portions and spaced to define an annular opening in alignment with said gap.
8. An electron gun in accordance with claim '7 wherein the gap defined by said first plate portions includes two coaxial annular sections of different widths the wider of which is nearest said cathode, and wherein said accelerating anode includes coaxial spaced cylindrical flanges extending into the narrower of said annular sections.
9. An electron gun in accordance with claim 7 wherein said beam forming electrode includes a cylindrical flange encompassing said plate member of said cathode and said accelerating anode includes a cylindrical flange encompassing said beam forming electrode.
7 ALVA EUGENE ANDERSON.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US385817A US2321886A (en) | 1941-03-29 | 1941-03-29 | Electron discharge device |
GB4069/42A GB555231A (en) | 1941-03-29 | 1942-03-27 | Electron discharge devices |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US385817A US2321886A (en) | 1941-03-29 | 1941-03-29 | Electron discharge device |
Publications (1)
Publication Number | Publication Date |
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US2321886A true US2321886A (en) | 1943-06-15 |
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ID=23522994
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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US385817A Expired - Lifetime US2321886A (en) | 1941-03-29 | 1941-03-29 | Electron discharge device |
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US (1) | US2321886A (en) |
GB (1) | GB555231A (en) |
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2573287A (en) * | 1950-06-23 | 1951-10-30 | Rauland Corp | Electron gun for cathode-ray tubes |
US2994801A (en) * | 1959-06-05 | 1961-08-01 | Stauffer Chemical Co | Electron beam generation |
US3040112A (en) * | 1960-06-03 | 1962-06-19 | Stauffer Chemical Co | Electron-beam furnace with beam emission suppressors |
US3058027A (en) * | 1949-02-09 | 1962-10-09 | Raytheon Co | Cylindrical beam cathode ray tube |
US3080626A (en) * | 1960-05-27 | 1963-03-12 | Stauffer Chemical Co | Electron-beam furnace with magnetic guidance and flux concentrator |
US3087211A (en) * | 1960-05-27 | 1963-04-30 | Stauffer Chemical Co | Electron-beam furnace with opposedfield magnetic beam guidance |
US3101515A (en) * | 1960-06-03 | 1963-08-27 | Stauffer Chemical Co | Electron beam furnace with magnetically guided axial and transverse beams |
US3105275A (en) * | 1960-05-27 | 1963-10-01 | Stauffer Chemical Co | Electron-beam furnace with double-coil magnetic beam guidance |
-
1941
- 1941-03-29 US US385817A patent/US2321886A/en not_active Expired - Lifetime
-
1942
- 1942-03-27 GB GB4069/42A patent/GB555231A/en not_active Expired
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3058027A (en) * | 1949-02-09 | 1962-10-09 | Raytheon Co | Cylindrical beam cathode ray tube |
US2573287A (en) * | 1950-06-23 | 1951-10-30 | Rauland Corp | Electron gun for cathode-ray tubes |
US2994801A (en) * | 1959-06-05 | 1961-08-01 | Stauffer Chemical Co | Electron beam generation |
US3080626A (en) * | 1960-05-27 | 1963-03-12 | Stauffer Chemical Co | Electron-beam furnace with magnetic guidance and flux concentrator |
US3087211A (en) * | 1960-05-27 | 1963-04-30 | Stauffer Chemical Co | Electron-beam furnace with opposedfield magnetic beam guidance |
US3105275A (en) * | 1960-05-27 | 1963-10-01 | Stauffer Chemical Co | Electron-beam furnace with double-coil magnetic beam guidance |
US3040112A (en) * | 1960-06-03 | 1962-06-19 | Stauffer Chemical Co | Electron-beam furnace with beam emission suppressors |
US3101515A (en) * | 1960-06-03 | 1963-08-27 | Stauffer Chemical Co | Electron beam furnace with magnetically guided axial and transverse beams |
Also Published As
Publication number | Publication date |
---|---|
GB555231A (en) | 1943-08-11 |
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