Claims
- 1. An electrode assembly comprising:
a metal drive electrode adapted to be coupled to a source of RF energy; a source electrode removably coupled to said drive electrode; and at least one fastener constructed at least partially of a non-metallic material and coupling said source electrode to said metal drive electrode.
- 2. The electrode assembly of claim 1 wherein said a least one fastener comprises:
a longitudinally elongated member having a longitudinal axis and first and second ends; a cap having a generally planar first face disposed on said first end such that said first face is generally perpendicular to the longitudinal axis of said member, said member having a threaded bore extending from an opening in said second end and extending towards said first end; and a bolt having threads configured to mate with corresponding threads of said threaded bore.
- 3. The electrode assembly of claim 2 wherein said elongated member is generally tapered in an outward direction beginning near said first end and extending toward said second end.
- 4. The electrode assembly of claim 2 wherein said drive electrode includes a first generally planar face with at least one mounting hole disposed therethrough and said source electrode includes a corresponding generally planar face with at least one mounting hole disposed therethrough and wherein said drive electrode and source electrode are arranged face to face such that each of said respective mounting holes are in substantial alignment and wherein said elongated member extends through each of said mounting holes.
- 5. The electrode assembly of claim 4 wherein said elongated member has a substantially non-circular cross section along at least part of its length and wherein said mounting hole of said metal drive electrode has a corresponding non-circular bore therethrough, such that when said elongate member is disposed within said non-circular bore, rotation of said elongated member is prevented.
- 6. The electrode assembly of claim 4 wherein said cap has a substantially non-circular cross section and said mounting hole source electrode includes a corresponding non-circular recess and wherein said cap is disposed within said recess.
- 7. The electrode assembly of claim 3 wherein said elongated member is made from polytetraflouroethylene and said bolt is constructed of a metallic material.
- 8. The electrode assembly of claim 3 wherein said elongated member is made from polytetraflouroethylene and said bolt is constructed of a non-metallic material.
- 9. The electrode assembly of claim 1 wherein said source electrode further comprises:
a disc of semiconductor material and a layer of metal disposed on a first face of said disc; and wherein said electrode assembly is arranged such that the layer of metal on said first face of said disc is in contact with a first face of said metal electrode.
- 10. The electrode assembly according to claim 9 wherein said metal is nickel or aluminum.
- 11. The electrode assembly according to claim 9 further comprising a second metal layer disposed on said metal layer and being made from a non-diffusive material.
- 12. The electrode assembly of claim 11 further comprising alternating layers of compressive and tensile materials are disposed between said metal layer and said second metal layer.
- 13. A plasma processing system comprising:
a vacuum chamber; an RF power supply; an electrode assembly disposed within said vacuum chamber and being further composed of:
a metal drive electrode adapted to be coupled to a source of RF energy; a source electrode removably coupled to said drive electrode; and at least one fastener constructed at least partially of a non-metallic material coupling said source electrode to said drive electrode.
- 14. The plasma processing system of claim 13 wherein said fastener comprises:
a longitudinally elongated member having first and second ends; a cap having a generally planar first face disposed on said first end such that said first face is generally perpendicular to the longitudinal axis of said member, said member having a threaded bore extending from an opening in said second end toward said first end; and a bolt having threads configured to mate with corresponding threads of said threaded bore.
- 15. The plasma processing system of claim 13 wherein said drive electrode includes a first generally planar face with at least one mounting hole extending through said drive electrode, and said source electrode includes a corresponding generally planar face with at least one mounting hole extending through said source electrode and wherein said drive electrode and source electrode are arranged face to face such that said respective mounting holes are in substantial alignment with one another and wherein said longitudinal member extends through each of said mounting holes.
- 16. The plasma processing system of claim 14 wherein said elongated member is generally tapered in an outward direction beginning near said first end and extending toward said second end.
- 17. The plasma processing system of claim 15 wherein said elongated member has a substantially non-circular cross section along at least part of its length and wherein said mounting hole of said metal drive electrode has a corresponding non-circular bore therethrough, such that when said elongate member is disposed within said non-circular bore, rotation of said elongated member is prevented.
- 18. The plasma processing system of claim 15 wherein said cap has a substantially non-circular cross section and said mounting hole source electrode includes a corresponding non-circular recess and wherein said cap is disposed within said recess.
- 19. The plasma processing system of claim 1 wherein said elongated member is made from polytetraflouroethylene and said bolt is constructed of a metallic material.
- 20. The plasma processing system of claim 13 wherein said elongated member is made from polytetraflouroethylene and said bolt is constructed of a non-metallic material.
- 21. The plasma processing system of claim 13 wherein said source electrode further comprises:
a disc of semiconductor material and a layer of metal disposed on a first face of said disc; and wherein said electrode assembly is arranged such that the layer of metal on said first face of said disc is in contact with said metal electrode.
- 22. The plasma processing system of claim 21 wherein said metal is nickel or aluminum.
- 23. The plasma processing system of claim 21 further comprising a second metal layer disposed on said metal layer and being made from a non-diffusive material.
- 24. The plasma processing system of claim 23 further comprising alternating layers of compressive and tensile materials disposed between said metal layer and said second metal layer.
- 25. A source electrode for attachment to a metal drive electrode in a plasma processing system, said source electrode comprising:
a disc of semiconductor material; and a layer of metal disposed on a first face of said disc.
- 26. The source electrode according to claim 25 wherein said metal is nickel or aluminum.
- 27. The source electrode of claim 25 further comprising a second metal layer disposed on said metal layer and being made from a non-diffusive material.
- 28. The source electrode according to claim 27 further comprising alternating layers of compressive and tensile materials disposed between said metal layer and said second metal layer.
- 29. The source electrode according to claim 25 wherein said semiconductor material is silicon.
- 30. The source electrode according to claim 25 wherein said metal layer covers the entire first face of said disc.
- 31. The source electrode according to claim 25 wherein said metal layer covers only a portion of said first face of said disc.
- 32. A method of operating a plasma processing system including the steps of:
providing a source electrode configured for coupling to a drive electrode; depositing a metal layer on one face of said source electrode; and fastening said source electrode to said drive electrode such that said metal layer is in contact with said drive electrode.
- 33. The method of claim 32 wherein the fastening step includes the steps of: providing at least partially non-metallic fasteners; and mounting said fasteners to said source electrode and said drive electrode such that no metal portion of said fasteners is exposed to a reactor chamber of said plasma processing system.
CROSS REFERENCE TO RELATED CO-PENDING APPLICATIONS
[0001] This a Continuation of International Application No. PCT/US01/22510, which was filed on Jul. 19, 2001 and claims priority from Provisional U.S. Application No. 60/219,453, which was filed Jul. 20, 2000. This application is also related to Provisional U.S. application Ser. No. 60/219,713, filed Jul. 20, 2000 and entitled IMPROVED ELECTRODE FOR PLASMA PROCESSING SYSTEM, the contents of which are expressly incorporated herein by reference.
Continuations (1)
|
Number |
Date |
Country |
Parent |
PCT/US01/22510 |
Jul 2001 |
US |
Child |
10345232 |
Jan 2003 |
US |