Claims
- 1. A multi-layer lithographically fabricated device comprising
a first layer, said first layer including a first structural element and, at a known distance and direction relative thereto, a first marker element, and a second layer, said second layer including a second structural element, said structural elements and said marker element intersecting a geometrical surface that extends transversely to said first and second layers, so that viewing said first marker element and said second structural element, at said geometrical surface, provides information for locating said second structural element relative to said first structural element.
- 2. The multi-layer lithographically fabricated device according to claim 1, in which the second layer includes
a second marker element located at a known distance and direction relative to said second structural element, said structural elements and said marker elements intersecting a geometrical surface that extends transversely to said first and second layers, so that viewing said first and second marker elements, at said geometrical surface, provides information for locating said second structural element relative to said first structural element.
- 3. The multi-layer lithographically fabricated device according to claim 1, in which
said first and second structural elements are recording head elements, and said marker element is adapted for imaging by a focused particle beam system.
- 4. Apparatus for shaping a pole-tip assembly of a recording head with a focused particle beam, said apparatus comprising
a focused particle beam for selectively interacting with a multi-layer device, said multi-layer device including
a first layer, said first layer including a first structural element and, at a known distance and direction relative thereto, a first marker element, and a second layer, said second layer including a second structural element and a second marker element, said structural elements and said marker elements intersecting a geometrical surface that extends transversely to said first and second layers, so that viewing said first marker element and said second structural element, at said geometrical surface, provides information for locating said second structural element relative to said first structural element, means for generating image signals responsive to said focused particle beams interaction with said first marker element and at least one of said second structural element and said second marker element on said multi-layer device and for generating, responsive to said image signals, a coordinate signal representative of a position of said second structural element relative to said first structural element and relative to said focused particle beam; and processor means responsive to said coordinate signal for generating a milling signal representative of an instruction for applying said focused particle beam to a selected portion of said second structural element for milling said selected portion of said second structural element.
- 5. Apparatus of claim 4, wherein said second structural element and said second marker element are the same element.
- 6. Apparatus of claim 4, wherein said second marker element is located at a known distance and direction relative to said second structural element.
- 7. A lithographic process for fabricating thin-film magnetic recording heads, said process having the improvement comprising the steps of
a) in a first lithographic step, patterning a first structural element and, at a known distance and direction relative thereto, patterning a first marker element, where said first structural element and said first marker element are on a common first lithographically formed layer, and b) in a second lithographic step, patterning a second structural element, where said second structural element is on a second lithographically formed layer different from said first layer, c) said patterning steps providing said structural elements and said marker element located to intersect a geometrical surface that extends transversely to said first and second layers, so that viewing said first marker element and said second structural element, at said geometrical surface, provides information for locating said second structural element relative to said first structural element.
- 8. The lithographic process of claim 7, in which said geometrical surface is substantially planar.
- 9. The lithographic process of claim 7, including the further step of cleaving said first and second layers along said geometrical surface.
- 10. The lithographic process of claim 7, wherein the second lithographic step includes the further step of
patterning a second marker element at a know distance and direction relative to said second structural element, where said second structural element and said second marker element are on a common second lithographically formed layer different from said first layer, said patterning steps providing said structural elements and said marker elements located to intersect a geometrical surface that extends transversely to said first and second layers, so that viewing said first and second marker elements, at said geometrical surface, provides information for locating said second structural element relative to said first structural element.
- 11. The lithographic process of claim 10, including the further step of providing said marker elements with selected spatial overlap along a first axis.
- 12. The lithographic process of claim 11, including the further step of providing said first and second structural elements with selected spatial overlap along an axis parallel to said first axis.
- 13. A process for locating a second structural element with respect to a first structural element in a multi-layer lithographically fabricated device, comprising the steps of
a) imaging, with a focused particle beam, a first marker element and at least one of said second structural element and a second marker element on said device,
said first structural element being in a first layer, and said first marker element being in said first layer at a known distance and direction from said first structural element, said second structural element being in a second layer, and said second marker element being in said second layer, said structural elements and said marker elements intersecting a geometrical surface that extends transversely to said first and second layers, and b) determining, responsive to said imaging step, the location of said second structural element relative to the location of said first structural element.
- 14. The process of claim 12, wherein said step of determining the location of said second structural element relative to the location of said first structural element includes the step of processing information regarding the location of said marker elements derived from imaging said first marker element and at least one of said second structural element and said second marker element.
- 15. The process of claim 13, wherein said second structural element and said second marker element are the same element.
- 16. The process of claim 13, wherein said second marker element is located at a known distance and direction relative to said second structural element, and
wherein said imaging step images said first and second marker elements and does not image said second structural element.
- 17. A process for employing a focused particle beam in the manufacture of a magnetic recording head, said process having the improvement comprising the steps of
a) forming a multi-layer substrate
having, in a first layer, a first structural element and, at a known distance and direction relative thereto, a first marker element, and having, in a different second layer, a second structural element and a second marker element, and having said structural elements and said marker elements intersecting a geometrical surface that extends transversely to said first and second layers, b) cleaving said substrate along a surface that includes said-first and second structural elements and said first and second marker elements, c) imaging, with a focused beam, said first marker element and at least one of said second structural element and said second marker element at said surface, d) determining, in response to said imaging step, a location, on said surface, of said second structural element relative to said first structural element, and e) applying said focused particle beam to a selected portion of said second structural element on said surface for the relative configuring of said second structural element by milling said selected portion of said second structural element.
- 18. The process of claim 17, wherein said second structural element and said second marker element are the same element.
- 19. The process of claim 17, wherein said second marker element is located at a known distance and direction relative to said second structural element.
- 20. The process of claim 19, wherein the step of imaging further includes imaging both said second structural element and said second marker element on said multi-layer device.
CROSS-REFERENCES
[0001] The present application is a continuation in part of application Ser. No. 08/635,063 filed Apr. 19, 1996, entitled “Thin-Film Magnetic Recording Heads and Systems and Methods for Manufacturing the Same,” by inventors C. Libby, D. Yansen, G. Athas, R. Hill, and R. Mello (attorney docket number MIM049). This application is incorporated herein by this reference.
Continuations (2)
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09370753 |
Aug 1999 |
US |
Child |
10085490 |
Feb 2002 |
US |
Parent |
08810837 |
Mar 1997 |
US |
Child |
09370753 |
Aug 1999 |
US |
Continuation in Parts (1)
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08635063 |
Apr 1996 |
US |
Child |
08810837 |
Mar 1997 |
US |