US2848622A - Calutron ion source - Google Patents
Calutron ion source Download PDFInfo
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- US2848622A US2848622A US641616A US64161646A US2848622A US 2848622 A US2848622 A US 2848622A US 641616 A US641616 A US 641616A US 64161646 A US64161646 A US 64161646A US 2848622 A US2848622 A US 2848622A
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- arc
- ion source
- cathode
- calutron
- opening
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J49/00—Particle spectrometers or separator tubes
- H01J49/02—Details
- H01J49/10—Ion sources; Ion guns
- H01J49/12—Ion sources; Ion guns using an arc discharge, e.g. of the duoplasmatron type
- H01J49/126—Other arc discharge ion sources using an applied magnetic field
Definitions
- the present invention relates to ion producing mechanisms, and especially to mechanisms effective to ionize material in a vapor or gaseous form by the agency of an electric arc established in a magnetic field between a filament, serving as a cathode, and an appropriate anode or anodes.
- a structure of this general type is referred to as a calutron, and is disclosed extensively in United States Patent No. 2,709,222, issued May 24, 1955, to Ernest 0. Lawrence.
- Figures 3 to 5 particularly, an embodiment of the invention to which the present disclosure is especially applicable. Because of the detailed disclosure in the Lawrence patent, the showing herein is primarily in diagrammatic form, and all parts which are not immediately germane to the present invention are omitted from the present description and showing.
- an ionizing mechanism of the type referred to it is desirable to produce as uniform an electric are as possible and to maintain the are operating uniformly over an extended period of time, in order to produce as copious a supply of ions as may be.
- the ions, after formation be withdrawn in a uniform and regular manner, for example in the shape of a ribbon-like beam, from the ion forming mechanism.
- a relatively long arc is employed, and it is an advantage to have the arc as uniform as possible throughout its entire length.
- the electric field existing adjacent to the arc is of great effect in establishing and controlling the initial paths of efllux of the generated ions, so that a favorable field contour is desirable.
- An additional object of the invention is to provide a means for establishing and mantaining a uniform, elongated arc.
- An additional object of the invention is to provide an arc mechanism also productive of favorable electric fields in the arc vicinity.
- a still further object of the invention is to provide an arc mechanism capable of protracted, uniform operation.
- An additional object of the invention is in general to improve the structure and operation of ionizing mechanisms, and more particularly of calutrons.
- the present invention is embodied in connection with an ion producing mechanism, generally designated 6, including an ion source block 7, preferably fabricated of a conducting material such as the metal copper, supported in an appropriate location in the calutron environment upon a mounting stem 8.
- the orientation of the source block 7 is such that its larger dimensions are parallel to the direction of the ambient magnetic field.
- the field direction is illustrated in the drawing by an arrow 9.
- a normally covered charge cavity 11 within which the material to be ionized is placed and from whence gas or vapor discharges through an aperture 12 into a normally covered gas distribution chamber 13, likewise defined by the walls of the block 7.
- the gas to be ionized is discharged or released from the cavity 13 through an exit opening 14 of elongated form extending substantially parallel to the direction 9, and being defined by facing walls 16 and 17 included in the block 7.
- the walls 16 and 17 are, along the margins of the opening or slit 14, divergently beveled to provide dihedral faces 18 and 19 leading to an arc chamber generally designated 21.
- the emitting portion 22 of a filamentary cathode 23 Disposed above the arc chamber 21, in registry with the opening 14 and in alignment in the direction 9 of the field, is the emitting portion 22 of a filamentary cathode 23. Conductors 24 and 26 connect the filament to a source 27 of power to heat the filament to electron emitting incandescence.
- the plates 28 and 29 are electrically insulated from the arc block 7, although they are mechanically supported thereon, by means of interposed electrical insulating strips 33 and 34. With this arrangement, there is defined a suitable arc chamber having its exit edges established by longitudinally extending plates, electrically isolated from the block 7.
- the plates 28 and 29 are connected electrically together by a conductor 36, extending to a suitable source 37 of electrical power effective to establish a voltage difference between the cathode 23 and the anode plates 28 and 29, so that an arc discharge occurs for substantially the entire length of the arc cavity 21.
- the arc does not immediately proceed from the cathode to the anodes by a short path, due to the collimating, or restricting, or confining influence of the ambient magnetic field on the electrons emitted from the filament. Rather, the arc extends in the direction of the magnetic field along and between the plates 28 and 29. Since these plates have uniform edges near the arc they do not disturb the electric field, but leave it in a favorable condition.
- the result ofthe described structure is to provide a relatively uniform, elongated arc in the path of gas issuing through the opening 14, so that there is a large proportion of ionized material released from the ion generator.
- an improved ion generator having an ac operating uniformly over a protracted period of time, and maintaining itself with great uniformity throughout its entire length. Consequently, the operation of the calutron over a long period with a copious output of ions is assured.
- a calutron comprising an ion source member including an arc chamber having an exit opening, a cathode disposed to discharge electrons into said arc chamber, means forming electrodes defining the margins of said exit opening, means for insulating said electrodes from said member, and means for electrically connecting said electrodes to serve as anodes for said cathode.
- a calutron for use in a magnetic field having a predetermined direction comprising an ion source member including an arc chamber having an exit opening, a cathode disposed to discharge electrons into said are chamber,
- Electrodes extending in the direction of said field disposed at either side -of said'exit'opening, and means for'including said cathode and said .electrodes in an electric arc circuit.
- a calutron comprising an electrically'conducting ion source member including an arc chamber having an exit opening, a cathode arranged to discharge electrons into said are chamber, an electrode adjacent said exit opening, means for insulating said electrode from said ion source member, and means for including sa'id electrode and said cathode in an arc discharge circuit.
- a calutron for use in a magnetic field having a predetermined direction comprising an electrically conducting ion source member including an arc chamber having an exit opening-elongated in said direction, a cathode disposed to discharge electrons into said are chamber,
- a calutron for use in a magnetic field having a predetermined direction comprising an ion source member including an arcchamber having an exit opening elon gated in said direction, a cathode disposed in registry with said opening-in :the direction of said field, electrodes disposed at either side ofsaidv opening and elongated in the direction of said field, and means for including said cathode and said electrodes in an electric arc circuit.
Description
1958 F. OPPENHEIMER 2,848,622
CALUTRON ION SOURCE Filed Jan. 16, 1946 INVENTOR [RAN/1 OPPE/W/E/MB? ATT ORA/F Y United States Patent Ofiice 2,848,622 Patented Aug. 19, 1958 CALUTRON ION SOURCE Frank Oppenheimer, Berkeley, Calif., assignor to the United States of America as represented by the United States Atomic Energy Commission Application January 16, 1946, Serial No. 641,616
5 Claims. (Cl. 250-413) The present invention relates to ion producing mechanisms, and especially to mechanisms effective to ionize material in a vapor or gaseous form by the agency of an electric arc established in a magnetic field between a filament, serving as a cathode, and an appropriate anode or anodes. A structure of this general type is referred to as a calutron, and is disclosed extensively in United States Patent No. 2,709,222, issued May 24, 1955, to Ernest 0. Lawrence. In the Lawrence patent, there is disclosed in Figures 3 to 5, particularly, an embodiment of the invention to which the present disclosure is especially applicable. Because of the detailed disclosure in the Lawrence patent, the showing herein is primarily in diagrammatic form, and all parts which are not immediately germane to the present invention are omitted from the present description and showing.
In the operation of an ionizing mechanism of the type referred to, it is desirable to produce as uniform an electric are as possible and to maintain the are operating uniformly over an extended period of time, in order to produce as copious a supply of ions as may be. In addition it is desired that the ions, after formation, be withdrawn in a uniform and regular manner, for example in the shape of a ribbon-like beam, from the ion forming mechanism. In order to produce a relatively large supply of ions, a relatively long arc is employed, and it is an advantage to have the arc as uniform as possible throughout its entire length. Additionally, the electric field existing adjacent to the arc is of great effect in establishing and controlling the initial paths of efllux of the generated ions, so that a favorable field contour is desirable.
It is, therefore, an object of the invention to provide an improved arc mechanism for forming ions.
An additional object of the invention is to provide a means for establishing and mantaining a uniform, elongated arc.
An additional object of the invention is to provide an arc mechanism also productive of favorable electric fields in the arc vicinity.
A still further object of the invention is to provide an arc mechanism capable of protracted, uniform operation.
An additional object of the invention is in general to improve the structure and operation of ionizing mechanisms, and more particularly of calutrons.
Other objects, together with the foregoing, are attained in the embodiment of the invention illustrated in the accompanying drawing, in which the figure is a schematic or diagrammatic showing, in isometric perspective, of a structure embodying the invention, virtually all mechanisms not immediately pertinent to the present invention being omitted.
The present invention is embodied in connection with an ion producing mechanism, generally designated 6, including an ion source block 7, preferably fabricated of a conducting material such as the metal copper, supported in an appropriate location in the calutron environment upon a mounting stem 8. The orientation of the source block 7 is such that its larger dimensions are parallel to the direction of the ambient magnetic field. The field direction is illustrated in the drawing by an arrow 9.
Included in the block 7 is a normally covered charge cavity 11, within which the material to be ionized is placed and from whence gas or vapor discharges through an aperture 12 into a normally covered gas distribution chamber 13, likewise defined by the walls of the block 7. The gas to be ionized is discharged or released from the cavity 13 through an exit opening 14 of elongated form extending substantially parallel to the direction 9, and being defined by facing walls 16 and 17 included in the block 7. Preferably, the walls 16 and 17 are, along the margins of the opening or slit 14, divergently beveled to provide dihedral faces 18 and 19 leading to an arc chamber generally designated 21.
Disposed above the arc chamber 21, in registry with the opening 14 and in alignment in the direction 9 of the field, is the emitting portion 22 of a filamentary cathode 23. Conductors 24 and 26 connect the filament to a source 27 of power to heat the filament to electron emitting incandescence.
To cooperate with the cathode 23 for the production of a satisfactory and improved arc, there are provided in accordance with the invention a pair of coplanar, electrically conducting plate 28 and 29, respectively, arranged with their length substantially parallel to the direction 9 of the magnetic field and with their facing edges 31 and 32 additionally defining an extension of the arc slit opening 14. The plates 28 and 29 are electrically insulated from the arc block 7, although they are mechanically supported thereon, by means of interposed electrical insulating strips 33 and 34. With this arrangement, there is defined a suitable arc chamber having its exit edges established by longitudinally extending plates, electrically isolated from the block 7.
In order that the plates 28 and 29 can serve as appropriate anodes, they are connected electrically together by a conductor 36, extending to a suitable source 37 of electrical power effective to establish a voltage difference between the cathode 23 and the anode plates 28 and 29, so that an arc discharge occurs for substantially the entire length of the arc cavity 21. The arc does not immediately proceed from the cathode to the anodes by a short path, due to the collimating, or restricting, or confining influence of the ambient magnetic field on the electrons emitted from the filament. Rather, the arc extends in the direction of the magnetic field along and between the plates 28 and 29. Since these plates have uniform edges near the arc they do not disturb the electric field, but leave it in a favorable condition.
The result ofthe described structure is to provide a relatively uniform, elongated arc in the path of gas issuing through the opening 14, so that there is a large proportion of ionized material released from the ion generator. There is, in accordance with the invention, provided an improved ion generator having an ac operating uniformly over a protracted period of time, and maintaining itself with great uniformity throughout its entire length. Consequently, the operation of the calutron over a long period with a copious output of ions is assured.
What is claimed is:
1. A calutron comprising an ion source member including an arc chamber having an exit opening, a cathode disposed to discharge electrons into said arc chamber, means forming electrodes defining the margins of said exit opening, means for insulating said electrodes from said member, and means for electrically connecting said electrodes to serve as anodes for said cathode.
2. A calutron for use in a magnetic field having a predetermined direction comprising an ion source member including an arc chamber having an exit opening, a cathode disposed to discharge electrons into said are chamber,
electrodes extending in the direction of said field disposed at either side -of said'exit'opening, and means for'including said cathode and said .electrodes in an electric arc circuit.
3. A calutron comprising an electrically'conducting ion source member including an arc chamber having an exit opening, a cathode arranged to discharge electrons into said are chamber, an electrode adjacent said exit opening, means for insulating said electrode from said ion source member, and means for including sa'id electrode and said cathode in an arc discharge circuit.
4. A calutron for use in a magnetic field having a predetermined direction comprising an electrically conducting ion source member including an arc chamber having an exit opening-elongated in said direction, a cathode disposed to discharge electrons into said are chamber,
4 electrodes extending in said direction and defining the margins of'saidexit opening, means for electrically insulating said electrodes from said member, and means for including said cathode and said electrodes in an electric arc circuit.
5. A calutron for use in a magnetic field having a predetermined direction comprising an ion source member including an arcchamber having an exit opening elon gated in said direction, a cathode disposed in registry with said opening-in :the direction of said field, electrodes disposed at either side ofsaidv opening and elongated in the direction of said field, and means for including said cathode and said electrodes in an electric arc circuit.
No references cited.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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US641616A US2848622A (en) | 1946-01-16 | 1946-01-16 | Calutron ion source |
Applications Claiming Priority (1)
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US641616A US2848622A (en) | 1946-01-16 | 1946-01-16 | Calutron ion source |
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US2848622A true US2848622A (en) | 1958-08-19 |
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US641616A Expired - Lifetime US2848622A (en) | 1946-01-16 | 1946-01-16 | Calutron ion source |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4608513A (en) * | 1984-09-13 | 1986-08-26 | Varian Associates, Inc. | Dual filament ion source with improved beam characteristics |
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1946
- 1946-01-16 US US641616A patent/US2848622A/en not_active Expired - Lifetime
Non-Patent Citations (1)
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US4608513A (en) * | 1984-09-13 | 1986-08-26 | Varian Associates, Inc. | Dual filament ion source with improved beam characteristics |
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