A perpendicular magnetic recording (PMR) writer is configured to magnetically record data on a rotatable disk surface. The PMR writer including a pole tip, side shields, an air-bearing surface (ABS) region, a yoke region comprising Silicon Dioxide (SiO2), side gaps and a plurality of throat regions. The side gaps are arranged respectively between the pole tip and the side shields and include SiO2. A side gap width of the plurality of throat regions increases with a side shield throat height above the ABS region for each of the throat regions. The side gap width has a different width variation in each of the throat regions.

A method is provided for manufacturing a magneto-resistive device, comprising the steps of: extracting at least one subset of bars from at least one bar section of a wafer; obtaining a magnetic performance of the at least one subset of the bars; determining an angle based on the magnetic performance; and processing remaining bars from the at least one bar section of the wafer based on the determined angle.

A tape head including a body with a tape-bearing surface configured to contact a magnetic tape, at least one transducer that is a read or write element, configured so the tape head may read from or write to the tape, in operation; and a monobloc closure with a structured cross-sectional profile, so as to exhibit: contact part, fixed on a side of the body which adjoins the tape-bearing surface at an edge thereof, the contact part having a top surface level with the tape-bearing surface; and connecting part integral with the contact part, the connecting part having a top surface recessed from the contact part's top surface, perpendicularly to a contact plane defined by the tape-bearing surface, so the connecting part's top surface does not contact the tape, in operation; and a broken line of mechanical weakness that extends at an end of the top surface of the connecting part.

A manufacturing method of a write portion for a thermally assisted magnetic head slider includes providing a write portion including a write element, a waveguide, and a plasmon unit; lapping opposed-to-magnetic recording medium surfaces of the write element and the waveguide, and an near-field light generating surface of the plasmon unit; only forming a carbon layer on the opposed-to-magnetic recording medium surface of the write element. Corrosive elements in the write portion can be prevented from being corroded and the write element can be prevented from being worn and abraded not only, stable thermal ability for a plasmon unit can be maintained but also.

A tape head module for performing azimuth recording and reading of tape media (e.g., where data bands are disposed at an angle to the direction of media travel) to increase the storage density of tape media. An array of read and/or write elements of the tape head module is oriented along an axis different than those of first and second lateral (e.g., overwrapped) edges of the tape head module. Positioning the first and second lateral edges of the disclosed tape head module to be perpendicular to the direction of tape motion (e.g., so that the tape moves over the first and second lateral edges perpendicularly to the first and second lateral edges) automatically positions the array of read and/or write elements at an azimuth angle (e.g., non-perpendicular angle) to the direction of tape motion. Also disclosed are methods for fabricating such tape head modules and related tape head assemblies.

A method of manufacturing a plasmon generator includes the steps of: forming an initial film made of a metal polycrystal and including a pre-plasmon-generator portion that later becomes the plasmon generator; heating the initial film with heating light so that a plurality of crystal grains constituting the metal polycrystal grow at least in the pre-plasmon-generator portion; stopping the heating of the initial film; and forming the plasmon generator by processing the initial film after the step of stopping the heating. The step of forming the plasmon generator includes the step of providing the pre-plasmon-generator portion with a front end face that generates near-field light.

A magnetic read head including a first read element magnetically coupled to a bottom shield; a second read element magnetically coupled to a top shield; a magnetic shielding structure that magnetically shields the first read element from the second read element; and a first electrical contact electrically coupled to the bottom shield, a second electrical contact electrically coupled to the top shield and a third electrical contact electrically coupled to the magnetic shielding structure.

Embodiments disclosed herein provide magnetic media access heads with metal coatings. In a particular embodiment, a magnetic media head for accessing magnetic media comprises a base substrate configured to support a magnetic head layer. The magnetic head layer is formed on the base substrate and configured to magnetically access the magnetic media. A metallic layer formed over the magnetic head layer and disposed between the magnetic head layer and the magnetic media when the magnetic media is positioned for access by the magnetic head layer.

The use of supermalloy-like materials such as NiFeMe where Me is one or more of Mo, Cr, and Cu for the side and top shields of a magnetic bit sensor is shown to provide better shielding protection from stray fields because of their extremely high permeability. Moreover, the side shield may comprise a stack in which a Ni, Fe, Co, FeNi, CoFe, or FeCo is sandwiched between two NiFeMe layers to enhance the bias field on an adjacent free layer. Including NiFeMe in a side shield results in an increase in readback amplitude under the same asymmetric sigma. For these sensors, the signal to noise ratio was higher and the bit error rate was lower than with conventional materials in the side shield.

A perpendicular magnetic recording medium adapted for high recording density and high data recording rate comprises a non-magnetic substrate having at least one surface with a layer stack formed thereon, the layer stack including a perpendicular recording layer containing a plurality of columnar-shaped magnetic grains extending perpendicularly to the substrate surface for a length, with a first end distal the surface and a second end proximal the surface, wherein each of the magnetic grains has: (1) a gradient of perpendicular magnetic coercivity H.sub.k extending along its length between the first end and second ends; and (2) predetermined local exchange coupling strengths along the length.