Claims
- 1. A liquid metal ion source comprising:
- a tubular body of electrical insulation material, said body having a face and having an opening therethrough from said face;
- a strip heater having a folded apex and having first and second legs extending from said apex, said legs being engaged on said tubular body so that said apex is positioned beyond said face, an opening in said strip heater at said apex, said strip heater being made of metallic material and being connectable to a heater electric power supply for electrically heating said strip heater at said apex by current through said strip heater legs;
- a metallic needle positioned in said opening through said body and extending beyond said face and extending through said opening in said apex of said strip heater, said needle having a pointed needle tip positioned beyond said apex of said strip heater and against said needle so that liquid metal flows out to said needle point so that ions can be emitted at said needle point from the liquid metal.
- 2. The liquid metal ion source of claim 1 wherein said insulator tubular body is a cylindrical insulator tube and said legs of said strip heater are engaged on opposite sides of said cylindrical insulator tube.
- 3. The liquid metal ion source of claim 2 wherein an insulator bushing is positioned around said legs of said heater to clamp said strip heater legs onto said body.
- 4. The liquid metal ion source of claim 3 wherein a shield is mounted on said bushing and extends forward from said face to surround at least a part of the heater forward of said face of said body.
- 5. The liquid metal ion source of claim 4 wherein first and second metallic clamp blocks engage upon said heater legs and upon said insulator tube to electrically connect to said heater legs and position said strip heater.
- 6. A liquid metal ion source comprising:
- a tubular body of electrical insulation material, said body having a face and having an opening therethrough from said face;
- a strip heater having a folded apex and having first and second legs extending from said apex, said legs being engaged on said tubular body so that said apex is positioned beyond said face, at least a part of each of said heater legs between said face and said apex having a fold line therein to strengthen said heater legs between said face and said apex, an opening in said strip heater at said apex, said strip heater being made of metallic material and being connectable to a heater electric power supply for electrically heating said strip heater at said apex by current through said strip heater legs;
- a metallic needle positioned in said opening through said body and extending beyond said face and extending through said opening in said apex, said needle having a pointed needle tip positioned beyond said apex so that fuel metal can be melted within said apex of said strip heater and against said needle so that liquid metal flows out to said needle point so that ions can be emitted at said needle point from the liquid metal.
- 7. The liquid metal ion source of claim 6 wherein an insulator bushing is positioned around said legs of said heater to clamp said strip heater legs onto said body.
- 8. The liquid metal ion source of claim 7 wherein a shield is mounted on said bushing and extends forward from said face to surround at least a part of the heater forward of said face of said body.
- 9. The liquid metal ion source of claim 8 wherein said insulator tube is a cylindrical insulator tube and said legs of said strip heater are engaged on opposite sides of said cylindrical insulator tube.
- 10. The method of generating an ion beam which comprises the steps of:
- (a) forming an apex in a strip of heating material with legs on both sides of the apex and forming an aperture through the strip material at the apex thereof;
- (b) supporting the strip heating material with both legs positioned on a ceramic support with the apex protruding beyond the ceramic support;
- (c) positioning a needle so that its tip extends through the aperture of the strip heater at the apex;
- (d) forming a meniscus of relatively low melting point melted ion source material within the apex of the strip heating material to wet the tip of the needle and;
- (e) establishing an electrical potential between the tip of the needle and an extractor to cause ions to flow from the ion source material on the needle tip to the target.
- 11. The method of claim 10 further including the step of:
- forming a protective vacuum between the needle and the target.
Government Interests
The government has rights in this invention pursuant to Contract No. N-00123-78C-0195 awarded by the U.S. Navy.
US Referenced Citations (3)
Number |
Name |
Date |
Kind |
3233404 |
Huber et al. |
Feb 1966 |
|
3475636 |
Eckhardt |
Oct 1969 |
|
4088919 |
Clampitt et al. |
May 1978 |
|