US2733346A - Oppenheimer - Google Patents
Oppenheimer Download PDFInfo
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- US2733346A US2733346A US2733346DA US2733346A US 2733346 A US2733346 A US 2733346A US 2733346D A US2733346D A US 2733346DA US 2733346 A US2733346 A US 2733346A
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- block
- arc
- chamber
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- anode
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- 150000002500 ions Chemical class 0.000 claims description 24
- 238000009877 rendering Methods 0.000 claims description 6
- 238000010891 electric arc Methods 0.000 description 10
- 239000012212 insulator Substances 0.000 description 6
- 230000000694 effects Effects 0.000 description 4
- 238000010438 heat treatment Methods 0.000 description 4
- 241000288976 Arcina Species 0.000 description 2
- 230000004075 alteration Effects 0.000 description 2
- 239000004020 conductor Substances 0.000 description 2
- 238000010276 construction Methods 0.000 description 2
- 230000001276 controlling effect Effects 0.000 description 2
- 229910052802 copper Inorganic materials 0.000 description 2
- 239000010949 copper Substances 0.000 description 2
- RYGMFSIKBFXOCR-UHFFFAOYSA-N copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 2
- 230000002939 deleterious Effects 0.000 description 2
- 239000000789 fastener Substances 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 239000002184 metal Substances 0.000 description 2
- 229910052751 metal Inorganic materials 0.000 description 2
- 239000000615 nonconductor Substances 0.000 description 2
- 239000002245 particle Substances 0.000 description 2
- 230000001105 regulatory Effects 0.000 description 2
Images
Classifications
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01J—ELECTRIC DISCHARGE TUBES OR DISCHARGE LAMPS
- H01J49/00—Particle spectrometers or separator tubes
- H01J49/26—Mass spectrometers or separator tubes
- H01J49/28—Static spectrometers
- H01J49/30—Static spectrometers using magnetic analysers, e.g. Dempster spectrometer
Definitions
- the invention relates to ion producing mechanisms and especially to ion producing mechanisms of the type utilized in connection with a calutron, especially one ⁇ of the type disclosed in the copending application of Ernest O. Lawrence, filed October 9, 1944, Serial No. 557,784, now Patent No. 2,709,222.
- a calutron especially one ⁇ of the type disclosed in the copending application of Ernest O. Lawrence, filed October 9, 1944, Serial No. 557,784, now Patent No. 2,709,222.
- the particular embodiment of calutron with which the present invention is most readily understood is disclosed in Figures 3 to 5 of the mentioned Lawrence application, to which reference is made for a detailed description of vthe structure and its mode of operation.
- the structure incorporates means for ionizing .a charge material to be processed, the means being in the nature of an electric arc operated within a magnetic field. A stream of gas or vapor is passedthrough and inthe vicinity of the electric arc, .and some ofthe gaseous 4.particles are thereby ionized.
- An important consideration is to maintain the arc as uniform inits operation over aiperiod of time as possible, and also to maintain the arc as uniform as possible throughout its length.
- the general aim is to produce as many ions as feasible with the structure employed, and any ,considerations that willadd to thetotal ionization are highly desirable.
- an object of the invention to provide means for improving an ionizing arc without simultaneous-- ly introducing secondary diiculties.
- Another object of the invention is to improve the uniformity of the electric arc, both in time and throughout its length.
- a further object of the invention is to provide means for readily controlling the conditions under which a calutron arc is operated.
- a further object of the invention is, in general, to improve an electric arc operating in a magnetic field.
- a still further object of the invention is, in general, to improve the operation of a calutron.
- Figure l is a fragmentary view of a calutron, particularly disclosing in cross section on a vertical, axial plane an ion generating mechanism or source, especially of the type shown in Fig. 4 of the mentioned Lawrence application; and
- Fig. 2 is, for the most part, an exploded view, in isometric perspective, of thesource block vand associated mechanism shown in Fig. 1, with portions being broken away to expose the interior construction, and portions being shown diagrammatically to illustrate the electrical connections and circuits.
- a calutron is inclusive of an ion source unit, generally designated 6, disposed in the evacuated interior 7 of a tank defined by a side wall S, a top wall 9, and a bottom wall 11.
- the tank is situated in a magnetic field established between an upper pole piece 12 and a lower pole piece 13 of an electromagnet.
- the source block 6 is electrically insulated from the tank wall 8 and is supported at the end of a mounting stem 14, extending through an aperture y16 in the wall 8 of the tank and carried by a mounting and adjusting mechanism 17.
- This latter mechanism forms no part of the present invention, and is therefore not described herein in detail.
- the mechanism 17 is in turn supported 'on a framework 18 fastened to an electrical insulator .19, itself secured tothe tank Wall 8 by an appropriate fastening mechanism "21.
- the inner end of the stem 14 is connected to the source block 6 by a thermal insulator 23, as the block 6 itself is preferably fabricated of a thermally conducting material such as a metaLfor example copper.
- a thermally conducting material such as a metaLfor example copper.
- an electrical heating coil 24 supplied with energy by a lead 26 passing through the insulator 19 to an exterior source of energy.
- Closing the upper end ofthe heater cavity 24 and the upper end of the gas distribution cavity 27 is a cover plate 29, secured by fastenings 31 and forming a -support for 'a pair of flamentleads 32and 33 extending through the insulator 19 to a source of energy and 'terminating in grips 34 and 36 holding a filament 37 over an aperture 38 in the plate 29 and in registry with the passage 28.
- a securing block 41 holds the filament leads 32 and 33 in position, while vthe enclosure of the filament is completed by a cap plate 42, removably positioned by fasteners operating through cap plate apertures 43.
- the block 6 For supplying the gas distribution chamber 27 with a vapor or gas to be subsequently ionized, the block 6 is provided with a pair of cavities 46 and 47, each or" cylindrical form and extending almost but not quite entirely through the metal of the block, so that heat from the source 24 is conducted to the walls of each of the cavities 46 and 47.
- the cavities communicate with the chamber 27 through outlet apertures 48 and 49, respectively, so that gas flow from both chambers 46 and 47 to chamber 27 is readily effected.
- the two chambers 46 and 47 are simultaneously closed by a cover plate S1, preferably held removably in position on the block 6 by fastenings operating through apertures, such as S2, in the top plate 51 and in the block 6.
- the present invention more especially contemplates the provision, as a member entirely separate and physically distinct from the source block 6, of an anode 71, simply formed by the inturned end 72 of an electrical conductend 72 is in substantial alignment in the magnetic field with the filament 37, and has an area that, while not precisely equal to, is still directly comparable to the effective emitting area of the filament 37.
- an arc struck from the filament 37 to the end 72 of the anode passes directly through the ionizing chamber 27 from one end thereof to the other.
- the anode rod 73 extends through an insulating jacket 74, through a mounting plate 76 and through the supporting structure 17 to the exterior of the evacuated chamber 7, so that it can appropriately be included in an electrical circuit also incorporating the filament leads 32 and 33 and the stem 14 of the arc block 6.
- the circuit and connections include a filament supply 81 of any sort capable of affording a source of electric current at a suitable voltage to supply the filament 37 for heating the filament to electron emitting temperatures.
- the circuit includes a potentiometer 82, connected to leads 33 and 84 respectively joined to the filament leads 32 and 33, so that by adjusting the position of the potentiometer 82 the power supplied to the filament is carefully regulated.
- the electrical supply includes also an arc power supply 91 of any suitable type, for furnishing current at a suitable voltage to maintain an arc between the filament and the anode.
- a potentiometer 93 having a connection 94 to the lead 84 and having a variable connection 95 to a lead 96 extending to the support stem 14 of the source block 6. By suitable regulation of the potentiometer 93, the potential of the block 6 with respect to the filament can be controlled.
- the arc supply 91 also includes a source 97 of power, provided with a potentiometer 93 connected by a variably positioned lead 99 to the lead 96 and also by a lead 101 to the anode rod 73, so that the potential of the anode with respect to the arc block 6 and with respect to the filament can be established at any value desired.
- An ion generator for a calutron comprising an arc block having an ionizing chamber therein open at both ends and a slot in one wall thereof extending from one end substantially to the other end, an electron emitting surface disposed adjacent said block to overlie one end of said chamber and said slot, an anode disposed at the other end of said chamber, means connected to said surface for rendering the same electron emissive, means connected between said surface and said block for maintaining an arc therebetween along the length of said slot, and means connected between said surface and said anode for maintaining an arc through said chamber.
- An ion generator for a calutron comprising an arc block having an ionizing chamber therein open at both ends and a slot in one wall thereof extending from one end substantially to the other end, a filament disposed adjacent said block to overlie one end of said chamber and said slot, a plate having an elongated aperture disposed between said tilament and block for defining the communieating area therebetween, an anode disposed at the other end of said chamber, a first adjustable power supply connected across said filament for rendering the same e1ec tron emissive, a second adjustable power supply connected between said filament and said block for maintaining an arc therebetween along the length of said slot, and a third adjustable power supply connected between said filament and said anode for maintaining an arc therebetween through said chamber.
Description
Jan. 31, 1956 F. OPPENHEIMER 2,733,346
ION PRODUCING MECHANISM Il IN VEN TOR.
Jan. 31, 1956 F. OPPENHEIMER ION FRODUCING MECHANISM 2 Sheets-Sheet 2 Filed Feb. 21, 1946 INVENTOR. HFA /V/f OPPf/VHE//v/E/e 9 l. S w m. 10a, I w T y n U Mm RP mw Aw Aw AU as s s F United States Patent() ION LPRODUCING uMECHANSM Frank Oppenheimer, Berkeley, Calif., assi'gnor to the United States of Americans represented by the United States Atomic Energy Commission Application February 21, 1946,:sen'a1 No. 649,401
2 Claims. (Cl. Z50-41.9)
The invention relates to ion producing mechanisms and especially to ion producing mechanisms of the type utilized in connection with a calutron, especially one `of the type disclosed in the copending application of Ernest O. Lawrence, filed October 9, 1944, Serial No. 557,784, now Patent No. 2,709,222. The particular embodiment of calutron with which the present invention ,is most readily understood is disclosed in Figures 3 to 5 of the mentioned Lawrence application, to which reference is made for a detailed description of vthe structure and its mode of operation.
The structure incorporates means for ionizing .a charge material to be processed, the means being in the nature of an electric arc operated within a magnetic field. A stream of gas or vapor is passedthrough and inthe vicinity of the electric arc, .and some ofthe gaseous 4.particles are thereby ionized. An important consideration is to maintain the arc as uniform inits operation over aiperiod of time as possible, and also to maintain the arc as uniform as possible throughout its length. The general aim is to produce as many ions as feasible with the structure employed, and any ,considerations that willadd to thetotal ionization are highly desirable. All of the factors .that govern or control the operation of an electric arc ina magnetic field are not fully understood nor explained in the literature, and it has therefore been necessary to develop changes and alterations in `previouspractices to augment the desired functioning of the structure. Some of these changes, while in some respects improving the operation of the are, have not been feasible from 'the structural or electrical standpoint; and some of them, while perhaps satisfactory in connection with the arc, have produced secondary effects in the resulting ion stream which have overbalanced, because of their disadvantageous nature, the otherwise advantageous arc results.
It is, therefore, an object of the invention to provide means for improving an ionizing arc without simultaneous-- ly introducing secondary diiculties.
Another object of the invention is to improve the uniformity of the electric arc, both in time and throughout its length.
A further object of the invention is to provide means for readily controlling the conditions under which a calutron arc is operated.
A further object of the invention is, in general, to improve an electric arc operating in a magnetic field.
A still further object of the invention is, in general, to improve the operation of a calutron.
Other objects, together with the foregoing, are attained in the embodiment of the invention described in the following description and illustrated in the accompanying drawings, in which:
Figure l is a fragmentary view of a calutron, particularly disclosing in cross section on a vertical, axial plane an ion generating mechanism or source, especially of the type shown in Fig. 4 of the mentioned Lawrence application; and
, ing rod 73. The
Fig. 2 is, for the most part, an exploded view, in isometric perspective, of thesource block vand associated mechanism shown in Fig. 1, with portions being broken away to expose the interior construction, and portions being shown diagrammatically to illustrate the electrical connections and circuits.
While a complete description of a calutron is.contained in the mentioned application of Lawrence, the structure most pertinent to the present disclosure can be vbriefly characterized as follows. A calutron is inclusive of an ion source unit, generally designated 6, disposed in the evacuated interior 7 of a tank defined by a side wall S, a top wall 9, and a bottom wall 11. The tank is situated in a magnetic field established between an upper pole piece 12 and a lower pole piece 13 of an electromagnet.
The source block 6 is electrically insulated from the tank wall 8 and is supported at the end of a mounting stem 14, extending through an aperture y16 in the wall 8 of the tank and carried by a mounting and adjusting mechanism 17. This latter mechanism forms no part of the present invention, and is therefore not described herein in detail. The mechanism 17 is in turn supported 'on a framework 18 fastened to an electrical insulator .19, itself secured tothe tank Wall 8 by an appropriate fastening mechanism "21.
As more particularly disclosed in Fig. 2, the inner end of the stem 14 is connected to the source block 6 by a thermal insulator 23, as the block 6 itself is preferably fabricated of a thermally conducting material such as a metaLfor example copper. Within the block 6 is disposed an electrical heating coil 24, supplied with energy by a lead 26 passing through the insulator 19 to an exterior source of energy. Adjacent the heater 24, in thermally conducting relationship therewith, is a gas distribution chamber 27, constituted by acavity Within the block 6 and having Van outlet passage 28 to the interior of the tank 7.
Closing the upper end ofthe heater cavity 24 and the upper end of the gas distribution cavity 27 is a cover plate 29, secured by fastenings 31 and forming a -support for 'a pair of flamentleads 32and 33 extending through the insulator 19 to a source of energy and 'terminating in grips 34 and 36 holding a filament 37 over an aperture 38 in the plate 29 and in registry with the passage 28. A securing block 41 holds the filament leads 32 and 33 in position, while vthe enclosure of the filament is completed by a cap plate 42, removably positioned by fasteners operating through cap plate apertures 43.
For supplying the gas distribution chamber 27 with a vapor or gas to be subsequently ionized, the block 6 is provided with a pair of cavities 46 and 47, each or" cylindrical form and extending almost but not quite entirely through the metal of the block, so that heat from the source 24 is conducted to the walls of each of the cavities 46 and 47. The cavities communicate with the chamber 27 through outlet apertures 48 and 49, respectively, so that gas flow from both chambers 46 and 47 to chamber 27 is readily effected. The two chambers 46 and 47 are simultaneously closed by a cover plate S1, preferably held removably in position on the block 6 by fastenings operating through apertures, such as S2, in the top plate 51 and in the block 6.
The present invention more especially contemplates the provision, as a member entirely separate and physically distinct from the source block 6, of an anode 71, simply formed by the inturned end 72 of an electrical conductend 72 is in substantial alignment in the magnetic field with the filament 37, and has an area that, while not precisely equal to, is still directly comparable to the effective emitting area of the filament 37. Thus, an arc struck from the filament 37 to the end 72 of the anode passes directly through the ionizing chamber 27 from one end thereof to the other.
The anode rod 73 extends through an insulating jacket 74, through a mounting plate 76 and through the supporting structure 17 to the exterior of the evacuated chamber 7, so that it can appropriately be included in an electrical circuit also incorporating the filament leads 32 and 33 and the stem 14 of the arc block 6.
The circuit and connections, as diagrammatically illustrated in Fig. 2, include a filament supply 81 of any sort capable of affording a source of electric current at a suitable voltage to supply the filament 37 for heating the filament to electron emitting temperatures. Preferably, the circuit includes a potentiometer 82, connected to leads 33 and 84 respectively joined to the filament leads 32 and 33, so that by adjusting the position of the potentiometer 82 the power supplied to the filament is carefully regulated.
In addition, the electrical supply includes also an arc power supply 91 of any suitable type, for furnishing current at a suitable voltage to maintain an arc between the filament and the anode. There is included a potentiometer 93, having a connection 94 to the lead 84 and having a variable connection 95 to a lead 96 extending to the support stem 14 of the source block 6. By suitable regulation of the potentiometer 93, the potential of the block 6 with respect to the filament can be controlled.
For supplying the anode, the arc supply 91 also includes a source 97 of power, provided with a potentiometer 93 connected by a variably positioned lead 99 to the lead 96 and also by a lead 101 to the anode rod 73, so that the potential of the anode with respect to the arc block 6 and with respect to the filament can be established at any value desired.
With this electrical arrangement, it is possible, outside of the vacuum chamber 7 and by suitably adjusting the potentioineters S2, 93, and 98, to establish any desired potential differences between the filament, the arc block, and the anode, respectively. This includes, as well, the desired potential difference between the filament and the anode. Stated differently, it is possible to establish the desired potential dierence between the filament and the anode and to establish the arc block at a potential either the same as that of the filament or the anode, or at a different potential than that of the filament or the anode. By appropriately adjusting the potentiometers, conditions for the production of an optimum arc can readily be estab lished without producing any deleterious secondary effects, and without unduly complicating the structure.
It has been found in practice that under different conditions of operation, depending somewhat upon the pressures existing within the vacuum chamber 7, depending somewhat upon the temperatures at which the source block is operated, and perhaps on other factors, that it is sometimes beneficial to operate the anode 73 at a potential somewhat different from that of the arc block; whereas at other times, usually during the major part of the continuance of a run, it is preferable to operate the anode and the arc block at substantially the same, or precisely the same, potential. With the disclosed structure, such adjustments and operating characteristics can readily be established, so that the general operation of the calutron structure is, in accordance with the invention, considerably improved.
What is claimed is:
l. An ion generator for a calutron comprising an arc block having an ionizing chamber therein open at both ends and a slot in one wall thereof extending from one end substantially to the other end, an electron emitting surface disposed adjacent said block to overlie one end of said chamber and said slot, an anode disposed at the other end of said chamber, means connected to said surface for rendering the same electron emissive, means connected between said surface and said block for maintaining an arc therebetween along the length of said slot, and means connected between said surface and said anode for maintaining an arc through said chamber.
2. An ion generator for a calutron comprising an arc block having an ionizing chamber therein open at both ends and a slot in one wall thereof extending from one end substantially to the other end, a filament disposed adjacent said block to overlie one end of said chamber and said slot, a plate having an elongated aperture disposed between said tilament and block for defining the communieating area therebetween, an anode disposed at the other end of said chamber, a first adjustable power supply connected across said filament for rendering the same e1ec tron emissive, a second adjustable power supply connected between said filament and said block for maintaining an arc therebetween along the length of said slot, and a third adjustable power supply connected between said filament and said anode for maintaining an arc therebetween through said chamber.
References Cited in the file of this patent
Claims (1)
1. AN ION GENERATOR FOR A CALUTRON COMPRISING AN ARC BLOCK HAVING AN INONIZING CHAMBER THEREIN OPEN AT BOTH ENDS AND A SLOT IN ONE WALL THEREOF EXTENDING FROM ONE END SUBSTANTIALLY TO THE OTHER END, AN ELECTRON EMITTING SURFACE DISPOSED ADJACENT SAID BLOCK TO OVERLIE ONE END OF SAID CHAMBER AND SAID SLOT, AN ANODE DISPOSED AT THE OTHER END OF SAID CHAMBER, MEANS CONNECTED TO SAID SURFACE FOR RENDERING THE SAME ELECTRON EMMISIVE, MEANS CONNECTED BETWEEN SAID SURFACE AND SAID BLOCK FOR MAINTAINING AN ARC THEREBETWEEN ALONG THE LENGTH OF SAID SLOT, AND MEANS CONNECTED BETWEEN SAID SURFACE AND SAID ANODE FOR MAINTAINING AN ARC THROUGH SAID CHAMBER.
Publications (1)
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US2733346A true US2733346A (en) | 1956-01-31 |
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ID=3442937
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US2733346D Expired - Lifetime US2733346A (en) | Oppenheimer |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2850633A (en) * | 1955-08-19 | 1958-09-02 | Phillips Petroleum Co | Thermionic emission source |
US3949230A (en) * | 1974-03-25 | 1976-04-06 | Jenear Glaswerk Schott & Gen. | Ion beam source |
US5438205A (en) * | 1994-04-08 | 1995-08-01 | National Electrostatics Corp. | Ion source gaseous discharge initiation impulse valve |
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0
- US US2733346D patent/US2733346A/en not_active Expired - Lifetime
Non-Patent Citations (1)
Title |
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None * |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2850633A (en) * | 1955-08-19 | 1958-09-02 | Phillips Petroleum Co | Thermionic emission source |
US3949230A (en) * | 1974-03-25 | 1976-04-06 | Jenear Glaswerk Schott & Gen. | Ion beam source |
US5438205A (en) * | 1994-04-08 | 1995-08-01 | National Electrostatics Corp. | Ion source gaseous discharge initiation impulse valve |
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