Claims
- 1. A magnetoresistive (MR) read head, comprising:an MR sensor having first and second surfaces bounded by first and second end edges and first and second side edges, the first end edge being at an air bearing surface; a flux/heat guide material bilayer which overlays an insulation material layer; the flux/heat guide material bilayer including a flux guide material layer and a heat guide material layer; the flux/heat guide material bilayer forming a contiguous junction with the second end edge of the MR sensor and having a length portion which extends from the contiguous junction away from the air bearing surface; the contiguous junction comprising the flux/heat guide material bilayer abutting the second end edge of the MR sensor and overlapping an end portion of the first surface of the MR sensor adjacent the second end edge with the insulation material layer being sandwiched between the MR sensor and the flux/heat guide material bilayer; the MR sensor and the flux/heat guide material bilayer being sandwiched between first and second gap layers; the first and second gap layers being sandwiched between first and second shield layers; each of the insulation material layer and the flux/heat guide material bilayer having an overlapping portion which forms the overlap of said flux/heat guide material bilayer on the end portion of the MR sensor; and each of said overlapping portions being tapered toward the air bearing surface.
- 2. An MR read head as claimed in claim 1 wherein the overlap of the flux/heat guide material bilayer on the end portion of the MR sensor is between zero and one-half a height of the MR sensor between said first and second end edges.
- 3. A magnetoresistive (MR) read head, comprising:an MR sensor having first and second surfaces bounded by first and second end edges and first and second side edges the first end edge being at an air bearing surface; a flux/heat guide material bilayer which overlays an insulation material layer; the flux/heat guide material bilayer including a flux guide material layer and a heat guide material layer; the flux/heat guide material bilayer forming a contiguous junction with the second end edge of the MR sensor and having a length portion which extends from the contiguous junction away from the air bearing surface; the contiguous junction comprising the flux/heat guide material bilayer abutting the second end edge of the MR sensor and overlapping an end portion of the first surface of the MR sensor adjacent the second end edge with the insulation material layer being sandwiched between the MR sensor and the flux/heat guide material bilayer; the MR sensor and the flux/heat guide material bilayer being sandwiched between first and second gap layers; the first and second gap layers being sandwiched between first and second shield layers; the flux/heat guide material bilayer having first and second side edges; first and second longitudinal biasing layers; and the first longitudinal biasing layer being connected to the first side edge of each of the MR sensor and the flux/heat guide material bilayer and the second longitudinal biasing layer being connected to the second side edge of each of the MR sensor and the flux/heat guide material bilayer.
- 4. An MR read head as claimed in claim 3, including:the connections of the first and second longitudinal biasing layers to the first and second side edges of the MR sensor being electrically conducting contiguous junctions and the connections of the first and second longitudinal biasing layers to the first and second side edges of the flux/heat guide material bilayer being electrically insulating contiguous junctions.
- 5. An MR read head as claimed in claim 4, including:each of the insulation material layer and the flux/heat guide material bilayer having an overlapping portion which forms the overlap of said flux/heat guide material bilayer on the end portion of the MR sensor; and each of said overlapping portions being tapered toward the air bearing surface.
- 6. An MR read head as claimed in claim 5, including:the MR sensor, the flux/heat guide material bilayer and the first and second longitudinal biasing layers forming a U shape which has a bottom straight edge located at the air bearing surface.
- 7. An MR read head as claimed in claim 6, wherein the heat guide material layer is copper (Cu).
- 8. An MR read head as claimed in claim 6, wherein the flux guide material layer is nickel iron (NiFe) and the heat guide material layer is copper (Cu).
CROSS REFERENCE TO RELATED APPLICATION
This application is a divisional application of application Ser. No. 08/672,516 filed Jun. 17, 1996 which issued as U.S. Pat. No. 5,930,084.
US Referenced Citations (15)
Foreign Referenced Citations (3)
Number |
Date |
Country |
58-185020 |
Oct 1983 |
JP |
7-244822 |
Sep 1995 |
JP |
8-36717 |
Jun 1996 |
JP |