Patent application number | Description | Published |
20080266715 | Slider overcoat for noise reduction of TMR magnetic transducer - A hard disk drive slider comprises an overcoat layer, which covers an air-bearing surface of the slider. The overcoat covers an exposed surface of a tunneling magnetoresistance transducer. An adhesion layer is coupled with the overcoat layer and the air-bearing surface. The adhesion layer comprises a compound of nitrogen. The compound of nitrogen reduces noise in read data from the tunneling magnetoresistance transducer. | 10-30-2008 |
20080273270 | Forming a planarized surface for at least one bar of sliders - A method for forming a planarized surface for at least one bar of sliders for utilization in a hard disk drive is disclosed. In general, at least one bar of sliders is placed on an adhesive layer. A single thermoplastic layer is then provided above the at least one bar of sliders. The single thermoplastic layer is then heated to a softening temperature such that the single thermoplastic layer will flow between the at least one bar of sliders. The single thermoplastic layer is then cooled to form a planarized surface of both said single thermoplastic layer and said at least one bar of sliders at said adhesive layer. | 11-06-2008 |
20080273271 | Reducing the height of a defect associated with an air bearing surface - A method for reducing the height of a defect associated with an air bearing surface of a hard disk drive slider is disclosed. The technology initially ion mills for a first period of time at a first angle relative to an air bearing surface of a disk drive slider to remove a first portion of the air bearing surface. Then the technology ion mills for a second period of time at a second angle relative to an air bearing surface of the disk drive slider to remove a second portion of the air bearing surface. The second portion of the air bearing surface comprises a defect wherein the ion milling at the second angle reduces the height of the defect with respect to the air bearing surface. | 11-06-2008 |
20090002889 | O-Ring free cooling pallet for hard disk drive slider carriers - An o-ring free cooling pallet for holding a carrier is disclosed. The pallet comprises a first clamp fixed to a planar surface of the pallet for coupling with a first edge of the carrier. The pallet also comprises a second clamp removably coupled to the planar surface of the pallet for coupling with a second edge of the carrier, wherein the second clamp comprises a spring mechanism for applying a force to the second edge of the carrier that is substantially parallel to the planar surface, the force for coupling the carrier to the pallet. | 01-01-2009 |
20090023100 | Patterning a surface comprising silicon and carbon - Patterning a surface, comprising at least one feature having silicon coupled to a substrate, is described herein. In one embodiment a method is described for patterning a surface which comprises at least one feature having silicon and at least one feature having carbon coupled to a substrate. The surface is coated with 3-(trimethoxysilyl)propyl methacrylate, and a photoresist is applied the 3-(trimethoxysilyl)propyl methacrylate coated surface. The photoresist is imaged and the surface is etched. The photoresist is then removed. | 01-22-2009 |
20090273859 | FORMING A POLE TIP TOPOGRAPHY - A method of forming a pole tip topography associated with an air bearing surface (ABS) of a hard disk drive slider is disclosed. The method etches an exposed pole tip region of an ABS at a first angle with respect to the ABS to remove an irregularity from the exposed pole tip region and to flatten the exposed pole tip region. The exposed pole tip region lacks a photo-resist layer. The method also includes etching the flattened exposed pole tip region of the ABS at a second angle with respect to the ABS to form a recession with reference to the ABS. | 11-05-2009 |
20100027163 | MAGNETIC RECORDING HEAD HAVING REINFORCING ISLANDS - A method for protecting a thin film structure including fabricating a plurality of island structures in a recording gap of a magnetic recording head, exposing a substantial portion of the plurality of island structures by removing at least a portion of the surrounding recording gap material via at least one etching process, including ion milling, coating the magnetic recording head containing the plurality of island structures with a coating material, including silicon nitride or aluminum oxide, and removing at least a portion of the coating material via a removal process, including chemical-mechanical polishing or lapping, to expose an uppermost region of at least a portion of said plurality of island structures. | 02-04-2010 |
20100038340 | MAGNETIC RECORDING HEAD COATING AND METHOD - A method for encapsulating a magnetic recording head including coating at least a portion of a magnetic recording head containing a recording gap with a first layer of at least one coating material, including silicon nitride, the first layer of at least one coating material having a first removal rate, coating at least a portion of the magnetic recording head containing a recording gap and coated with the first layer of at least one coating material with a second layer of at least one coating material, including aluminum oxide, the second layer of at least one coating material having a second removal rate higher than the first removal rate, and removing at least a portion of the second layer of at least one coating material via a removal process, including chemical-mechanical polishing, lapping, or vacuum processing to at least partially planarize the surface of the recording gap. | 02-18-2010 |
20100047628 | METHODS OF ION MILLING FOR MAGNETIC HEADS AND SYSTEMS FORMED THEREBY - A method according to one embodiment includes ion milling at a first angle of greater than about 25 degrees from normal relative to a media facing side of a thin film region of a magnetic head or component thereof for recessing the thin film region at about a constant rate for films of interest of the thin film region, planes of deposition of the films being oriented about perpendicular to the media facing side; and ion milling or plasma sputtering at a second angle of less than about 25 degrees from normal relative to the media facing side of the thin film region for recessing magnetic films therein faster than insulating films therein, the second angle being smaller than the first angle. | 02-25-2010 |
20110059336 | MAGNETIC HEAD WITH TEXTURED SURFACES - A method according to one embodiment includes contacting an oxidant with an AlTiC portion of a magnetic head for recessing TiC grains of the AlTiC portion. A method according to another embodiment includes contacting a peroxide with an AlTiC portion of a magnetic head for recessing TiC grains of the AlTiC portion from a media bearing surface of the AlTiC portion. A magnetic head according to yet another embodiment includes an AlTiC portion having a media bearing surface; and a thin film portion coupled to the AlTiC portion, wherein TiC grains of the AlTiC portion are recessed from the media bearing surface. | 03-10-2011 |
20110090589 | MAGNETIC HEADS HAVING MAGNETIC FILMS THAT ARE MORE RECESSED THAN INSULATING FILMS, AND SYSTEMS HAVING SUCH HEADS - A structure according to one embodiment includes a substrate having a media facing side; and a thin film stack formed on the substrate, the thin film stack including magnetic films and insulating films, wherein the thin film stack is recessed from a plane extending along the media facing side of the substrate, wherein the magnetic films are recessed more than the insulating films, wherein the magnetic films each have a substantially flat media facing surface, wherein the insulating films each have a substantially flat media facing surface. | 04-21-2011 |
20110256423 | HEAD COMPRISING A CRYSTALLINE ALUMINA LAYER - A magnetic head produced at low ambient temperatures that comprise a crystalline alumina layer for increasing the durability of the head is provided. According to one embodiment, a magnetic head for at least one of reading and writing data on to a magnetic data storage media. The magnetic head comprises a substrate, an at least partially crystalline alumina layer formed on the substrate, at least one of a write transducer and a read transducer formed on the substrate, and a surface for engaging the magnetic data storage media. In another embodiment, a method for forming an at least partially crystalline alumina film. The method comprises providing a substrate, and depositing alumina onto the substrate at an ambient temperature to form the at least partially crystalline alumina film. | 10-20-2011 |
20120063034 | CURRENT-PERPENDICULAR-TO-THE-PLANE (CPP) MAGNETORESISTIVE (MR) SENSOR WITH IMPROVED INSULATING STRUCTURE - A current-perpendicular-to-the-plane (CPP) magnetoresistive (MR) sensor, like a CPP MR disk drive read head, has an improved insulating structure surrounding the stack of layers making up the sensor. The sensor has a first silicon nitride layer with a thickness between about 1 and 5 nm on the side edges of the sensor and on regions of the bottom shield layer adjacent the sensor below the sensor's ferromagnetic biasing layer. The sensor has a second silicon nitride layer with a thickness between about 2 and 5 nm on the back edge of the sensor and on the region of the bottom shield layer adjacent the sensor back edge, and a substantially thicker metal oxide layer on the second silicon nitride layer. The insulating structure prevents edge damage at the perimeter of the sensor and thus allows for the fabrication of CPP MR read heads with substantially smaller dimensions. | 03-15-2012 |
20120183907 | PATTERNING PROCESS FOR SMALL DEVICES - A method according to one embodiment includes applying a photoresist to a substrate; exposing the photoresist such that a local intensity of radiation applied to the photoresist at each pixel thereof is a function of a mathematically-generated representation of a target surface shape; developing the resist; and performing a subtractive process on the developed photoresist and the substrate for creating the target surface shape on the substrate. A method according to another embodiment includes applying a photoresist to a substrate; patterning the photoresist using a machine-readable profile; and performing a subtractive process to transfer the profile onto the substrate. | 07-19-2012 |
20130152381 | METHODS FOR TEXTURING MAGNETIC HEAD SURFACE - A method according to one embodiment includes contacting an oxidant with an AlTiC portion of a magnetic head for recessing TiC grains of the AlTiC portion. A method according to another embodiment includes contacting a peroxide with an AlTiC portion of a magnetic head for recessing TiC grains of the AlTiC portion from a media bearing surface of the AlTiC portion. | 06-20-2013 |
20130295296 | METHOD FOR FORMING AN AT LEAST PARTIALLY CRYSTALLINE ALUMINA LAYER - A method for forming an at least partially crystalline alumina film includes providing a substrate, and depositing alumina onto the substrate at an ambient temperature to form the at least partially crystalline alumina film. | 11-07-2013 |
20140061033 | SYSTEM AND METHOD FOR DIFFERENTIAL ETCHING - A method according to one embodiment includes placing a substrate in a chamber; and plasma sputtering the substrate in a presence of a non-zero pressure of a vapor, wherein the vapor at the non-zero pressure is effective to diminish an etch rate of a first material of the substrate. A plasma sputtering apparatus according to one embodiment includes a chamber; a reservoir in the chamber for releasing a vapor at an established rate; a mount for a substrate; and a plasma source. | 03-06-2014 |
20140153136 | NOVEL FILL-IN CONTACT LAYER FOR SLIDER AIR BEARING SURFACE PROTECTIVE COATING - A magnetic slider for magnetic data recording constructed by a process that allows for careful control of seed layer and overcoat thickness. The slider is treated by a process that result in surface pits and scratches. A refill layer is used to fill in the pits and scratches, the refill layer being constructed of a material that does not include Si or carbon. An angled ion beam etching can be used to remove portions of the refill layer that extend outside of the pits and scratches. Then, a seed layer comprising Si and a protective layer comprising C are deposited over the surface. Because the refill layer does not contain either of Si or C, the thickness of the seed layer and carbon overcoat can be accurately measured and controlled, without the refill layer being mistaken for seed or overcoat material. | 06-05-2014 |