| Entries |
| Document | Title | Date |
|---|
| 20120113544 | WET ETCHING SILICON OXIDE DURING THE FORMATION OF A DAMASCENE POLE AND ADJACENT STRUCTURE - A magnetic head according to one embodiment includes a side gap layer comprising primarily silicon nitride, wherein outer sides of the side gap layer taper away from one another from a leading end of the side gap layer towards a trailing end of the side gap layer; a seed layer above the silicon nitride side gap layer; and a magnetic pole on the seed layer. A method for forming a magnetic head according to one embodiment includes etching a channel in a silicon oxide layer; forming a side gap layer comprising primarily silicon nitride in the channel; forming a seed layer above the side gap layer; plating a pole on the seed layer; and removing the silicon oxide layer by wet etching. Additional systems and methods are also presented. | 05-10-2012 |
| 20120113545 | Motor and recording disk drive including the same - There is provided with a motor, including: a rotating member coupled with a shaft and rotating in connection with the shaft; a stationary member having the shaft inserted therein to support the shaft and having a convex part formed to be protruded from the outside surface thereof; and a wall part protruding from one surface of the rotating member to allow oil to be sealed between the rotating member and the stationary member, and including a concave part having a concave groove formed at a position corresponding to the convex part. | 05-10-2012 |
| 20130021695 | BASE DESIGN OF MAGNETIC DISK DRIVE - A magnetic disk device including: one or more disk-shaped magnetic disks; a spindle motor; a magnetic head; an arm for supporting the magnetic head; an enclosure base for housing the above components; an adjacent facing surface which lies in the enclosure base adjacent to the magnetic disk; a non-adjacent facing surface which lies in the enclosure opposite the magnetic disk and is further from the magnetic disk than the adjacent facing surface; a connecting surface for connecting the adjacent facing surface and the non-adjacent facing surface; and a groove which extends in the circumferential direction of the magnetic disk on the magnetic disk inner circumferential side of the adjacent facing surface, wherein one end of the groove is exposed at the connecting surface, while the other end has an end face which is perpendicular to the direction of rotation of the magnetic disk. | 01-24-2013 |
| 20130050870 | SPINDLE MOTOR AND DISK DRIVE APPARATUS - A spindle motor includes a stationary portion defined by a base portion, a stator core arranged on the side of an upper surface of the base portion, and a coil attached to the stator core. A rotating portion includes a magnet arranged on a radially inner side of the stator core, a first supporting surface which is in contact with a lower surface of a disk, and a disk supporting portion arranged on a radially outer side than the magnet. The stator core includes a ring-shaped core back, and a plurality of teeth. The disk supporting portion is positioned radially outward from a radially inner end portion of the teeth and radially inward from the coil. The radially inner end portion of the teeth, the disk supporting portion, and the coil overlap in the radial direction. | 02-28-2013 |
| 20130265672 | Perpendicular Pole Head for Servo Writing Magnetic Media - The present disclosure relates to a perpendicular pole head for creating a perpendicular magnetic moment in a concentrated pattern for writing the pattern on perpendicular magnetic media, such as BaFe based media. The pole head can have flux concentrators in the shape of the written pattern, which can be repeatedly applied to a moving magnetic medium to create a timing pattern on the media, e.g., a servo timing pattern. | 10-10-2013 |
| 20140022668 | Magnetic head - According to one embodiment, a magnetic head includes a magnetoresistive element between a first magnetic shield layer and a second magnetic shield layer, and a hard bias layer between the first magnetic shield layer and the second magnetic shield layer on a side surface of the magnetoresistive element in a first direction intersecting with a second direction which links the first and second magnetic shield layers. The hard bias layer includes Fe or an alloy containing Fe and Co. An aspect ratio (h/w) of the hard bias layer is not smaller than 2, where h is a height of the hard bias layer in the first direction and w is a thickness of the hard bias layer in the second direction. | 01-23-2014 |
| 20140085748 | DEVICE SUCH AS MAGNETIC HEAD HAVING HARDENED DIELECTRIC PORTIONS - A device according to one embodiment includes a substrate; and a plurality of thin films above the substrate, the thin films having at least one dielectric layer; wherein the at least one dielectric layer has a more crystalline structure towards a first end thereof than towards an end thereof opposite the first end. A magnetic head according to one embodiment includes a substrate; and a plurality of thin films above the substrate, the thin films having at least one transducer formed therein and at least one dielectric layer; wherein the at least one dielectric layer has a more crystalline structure towards a media facing end thereof than towards an end thereof opposite the media facing end. | 03-27-2014 |
| 20140168814 | HEAD GIMBAL ASSEMBLY AND DISK DEVICE WITH THE SAME - According to one embodiment, a head gimbal assembly includes a load beam, a base plate fixed to a proximal-end portion of the load beam, a flexure attached to the load beam and the base plate, a gimbal portion formed of a distal-end portion of the flexure positioned on a distal-end portion of the load beam, a magnetic head attached to the gimbal portion, and electrically connected to the traces of the flexure, a concave portion formed in the gimbal portion, and concaved toward the thin metallic plate side, and a piezoelectric element arranged in the concave portion, fixed on a bottom of the concave portion, and configured to expand/contract in a longitudinal direction of the flexure by application of a voltage thereto. | 06-19-2014 |
| 20140198409 | MAGNETIC MEDIA WITH A LOW MOLECULAR WEIGHT LUBRICATING LAYER FOR USE IN HEAD/MEDIA CONTACT DETECTION - According to various embodiments, a lubricating layer for providing lubrication to a magnetic recording medium includes a perfluoropolyether (PFPE) represented by: X—CF | 07-17-2014 |
| 20140211340 | MAGNETIC HEAD AND MAGNETIC RECORDING/REPRODUCING APPARATUS - To realize a highly reliable magnetic head for a high-frequency magnetic field assisted recording system by preventing current crowding in an oscillator and increasing the current resistance of the oscillator. Between a main pole that generates a recording magnetic field and a trailing shield, an oscillator that includes a non-magnetic metal layer, a spin injection pinned layer, an intermediate layer, and a high-frequency magnetic field generation layer and that generates a high-frequency magnetic field is disposed. The non-magnetic metal layer adjacent to the main pole is tapered with the width gradually increasing from the trailing side toward the leading side. | 07-31-2014 |
| 20140268410 | RESISTANCE TEMPERATURE SENSORS FOR HEAD-MEDIA AND ASPERITY DETECTION - A temperature sensor of a head transducer measures temperature near or at the close point. The measured temperature varies in response to changes in spacing between the head transducer and a magnetic recording medium. A detector is coupled to the temperature sensor and is configured to detect a change in a DC component of the measured temperature indicative of onset of contact between the head transducer and the medium. Another head transducer configuration includes a sensor having a sensing element with a high temperature coefficient of resistance to interact with asperities of the medium. Electrically conductive leads are connected to the sensing element and have a low temperature coefficient of resistance relative to that of the sensing element, such thermally induced resistance changes in the leads have a negligible effect on a response of the sensing element to contact with the asperities. | 09-18-2014 |
