Abstract: A data storage device may have at least a slider constructed with at least one feature positioned on an air bearing region and separated from a data transducer. The at least one feature can be configured to provide a slider stiffness that decreases modulation while the at least one feature is floating above or in contact with a data storage media.

Abstract: An apparatus includes a slider structure having a waveguide and a cavity configured to align a laser to the waveguide. The cavity includes a plurality of solder bumps on a bottom of the cavity configured to electrically and thermally couple the laser to the slider. At least one mechanical stopper is disposed in the cavity to facilitate vertical alignment between an output of the laser and an input of the waveguide. At least one solder bump is disposed on the mechanical stopper to facilitate lateral alignment between the output of the laser and the input of the waveguide in response to a reflow of the solder bumps.

Abstract: A data storage device may have at least a slider constructed with at least one feature positioned on an air bearing region and separated from a data transducer. The at least one feature can be configured to provide a slider stiffness that decreases modulation while the at least one feature is floating above or in contact with a data storage media.

Abstract: One embodiment includes a track recording head for creating discrete tracks in a rotating magnetic storage medium. The track recording head includes a main body, at least one stylus, and a stylus actuator. The main body is configured to be attached to a head gimbal assembly. The main body has an air bearing surface configured to face a corresponding surface of the rotating magnetic storage medium. The stylus is formed on the air bearing surface and is configured to be actuated towards the surface of the rotating magnetic storage medium to contact and apply stress to the rotating magnetic storage medium to create isolation regions of non-directionally magnetizable material. The stylus actuator is formed in the main body and is configured to actuate the stylus.

Abstract: A thin-film magnetic head where the closure is bonded with sufficiently high adhesive strength by the adhesive layer thinner than conventional and that is free from the problem of fine dusts, is provided. The head comprises: a substrate having an element-formed surface and an opposed-to-medium surface; at least one magnetic head element provided on/above the element-formed surface; an overcoat layer formed on the element-formed surface; an etching pattern formed on a part of an upper surface of the overcoat layer, the whole or a part of the etching pattern being filled up by adhesive; a closure provided on the etching pattern of the overcoat layer; and an opening portion formed close to an edge on the opposite side to the opposed-to-medium surface of an adhesive surface of the closure, being a portion exposed from the closure of the etching pattern.

Abstract: A thin-film magnetic head that shows stable read and/or write performances, maintaining the reliability over time by suppressing the wear of the head sufficiently, is provided. The head comprises: a substrate having an element-formed surface and an opposed-to-medium surface; a magnetic head element; an overcoat layer formed on the element-formed surface so as to cover the magnetic head element; a closure provided on the overcoat layer, a surface of the closure being in contact with the upper surface of the overcoat layer; and an element contact pad formed in a sliding-side surface of the head and having a contact surface including a part of the opposed-to-medium surface, a part of an end surface of the overcoat layer and a part of an end surface of the closure, one end of the magnetic head element reaching the contact surface.

Abstract: Embodiments of the invention relate to manufacturing method of a magnetic head slider which flies stably even with a reduced peripheral speed resulting from a trend toward a magnetic disk having a smaller diameter. According to one embodiment, a method of manufacturing a magnetic head slider comprises forming a leading side rail surface and a trailing side rail surface, a leading stepped bearing surface and a trailing stepped bearing surface, and a negative-pressure groove surface on an air bearing surface through etching, forming a first stepped surface on the leading side rail surface through sputtering, and forming a second stepped surface by forming a carbon layer on the first stepped surface through sputtering. The first stepped surface has a first height with respect to the leading side rail surface and the second stepped surface has a second height with respect to the first stepped surface.

Abstract: The sensitivity of the ABS shape of a suspension mounted slider to temperature variations can be greatly reduced if the backside of the slider is lapped to a smooth convex contour that is similar to the ABS shape, rather than to a planar shape, prior to mounting the slider on the suspension. When the backside surfaces of sliders are shaped in this manner, the size of changes in the crown height of the ABS shape due to temperature variations are greatly reduced and the ABS shapes are distributed more tightly, thereby increasing disk drive reliability.

Abstract: A magnetic head slider disposed opposite to a surface of a magnetic disk, includes a slider main body, a magnetic head element that reads and reproduces data from the magnetic disk, and a vibration absorbing unit that absorbs vibrations generated due to contact between any portion of the slider main body and the surface of the magnetic disk, and that is provided on the slider main body at a predetermined position.

Abstract: A method is presented for repairing damaged photomasks for electronic component fabrication processes, particularly for fabrication of the ABS of a disk drive slider. The method includes applying an overcoat of material having index of fraction which is close to the index of refraction of the photoresist material of the damaged photomask to produce a non-scattering boundary surface. The overcoat material preferably includes an overcoat base material which is a polymer having an index of refraction which is in the range of plus or minus 0.1 from the index of refraction of said photoresist material.

Abstract: The overcoat of a slider (alumina) is recessed relative to the slider ABS by a non-abrasive CMP process sufficiently to prevent thermal protrusion of the overcoat during subsequent slider use in a hard disk drive. The CMP process involves the oscillatory and rotational compressional contact between the ABS surface of the slider and a polymerically pre-treated compliant pad that is sprayed by an aqueous alkali lubricating solution having a pH between about 9 and 10. The overcoat is thereby also softened by the lubricating solution and removed by the compressional contact and no use of abrasives is required.

Abstract: A magnetic recording disk drive has a negative-pitch slider in near-contact or continuous-contact with the disk during reading and writing of data. When the disk is rotating at its operating speed, the slider has its upstream or leading portion located closer to the disk surface than its downstream or trailing portion. Both the leading and trailing portions have air-bearing surfaces that enable the slider to be partially supported above the disk surface. A contact pad that provides no substantial air-bearing support is located at the leading portion and supports or contains the magnetic elements of the read/write head. The contact pad protrudes beyond the air-bearing surface of the leading portion and is in contact with the disk. For near-contact recording the contact pad partially wears away during an initial wear-in period. For continuous-contact recording the contact pad is wear-resistant and remains in substantially continuous contact with the disk during reading and writing of data.

Abstract: A method for shaping an ABS of a magnetic head slider including a step of holding at least one row bar with a plurality of aligned thin-film magnetic head elements by adhering a first surface of the at least one row bar to an adhesive or UV tape capable of passing a laser beam there through, the first surface being opposite an ABS of the at least one row bar, a step of shaping the ABS of the at least one row bar in a convex shape by radiating a laser beam to the first surface of the at least one row bar through the adhesive or UV tape, a step of cutting the at least one row bar into individual magnetic head sliders, and a step of then, removing the magnetic head sliders from the adhesive or UV tape after weakening adhesion properties of the adhesive or UV tape.

Abstract: The invention is generally directed to a slider that is particularly suited for dynamic load/unload disk drive designs. This slider desirably addresses potential disk damage associated with contact between sharp edges of the slider of the disk drive and the data storage surface of a corresponding disk. Any appropriate type/configuration of a disk drive may benefit from performing read/write operations utilizing the slider of the present invention. Generally, this slider includes at least one air bearing surface which enables the slider to “fly” above the read/write surface of the disk, and at least one self-blending contact pad disposed on the lower surface of the slider to reduce the potential for contact between any portion of the slider other than the self-blending contact pad(s) and the corresponding read/write surface of the disk.

Abstract: A slider having a protrusion extending beyond an air bearing surface of the slider to maintain the slider with a positive pitch angle during contact with the surface of a disk. The protrusion may be disposed on a leading edge step of the slider body with the protrusion extending beyond the air bearing surface. The slider may be used in a load/unload disk drive system to provide a positive pitch attitude to the slider at all times during operations of the disk drive system.

Abstract: A write-inhibit signal is generated by a head-disk interaction sensor during a write process that is integrated with a suspension of a hard disk drive (HDD) when fly-height modulation of the slider is detected during a write process The suspension load beam includes a dimple and a laminated flexure. The laminated flexure includes a surface that is adapted to receive a slider and a surface that is adapted to contact the dimple. The head-disk interaction sensor is fabricated as part of the laminations of the flexure. The head-disk interaction sensor can be an accelerometer that senses an acceleration of the flexure when the slider contacts the disk of the disk drive and/or a pressure sensor that senses a pressure between the flexure and the dimple when the slider contacts the disk. A write-inhibit circuit is responsive to the sensor signal by inhibiting the write process.

Abstract: A head slider has small friction force even if the head slider comes in contact with a magnetic disk having a smooth surface at high speed. The vibration is also low and wear resistance is high. The head slider is provided with plural air bearing surfaces for floating over the magnetic disk or one or more lubricant bearing surfaces for smoothly gliding over the magnetic disk. A slope angle on the front side of the bearing surface in the traveling direction of the head slider is larger than a slope angle on the rear side of the bearing surface in the vicinity of a contact part of the bearing surface that may come in contact with the magnetic disk.

Abstract: A method for shaping an ABS of a magnetic head slider including a step of holding at least one row bar with a plurality of aligned thin-film magnetic head elements by adhering a first surface of the at least one row bar to an adhesive or UV tape capable of passing a laser beam there through, the first surface being opposite an ABS of the at least one row bar, a step of shaping the ABS of the at least one row bar in a convex shape by radiating a laser beam to the first surface of the at least one row bar through the adhesive or UV tape, a step of cutting the at least one row bar into individual magnetic head sliders, and a step of then, removing the magnetic head sliders from the adhesive or UV tape after weakening adhesion properties of the adhesive or UV tape.

Abstract: A slider comprises a slider section and an element section. The slider section has a first medium facing surface and an air inflow end. The element section has a second medium facing surface, an air outflow end, and a thin-film magnetic head element. The slider section and the element section are produced separately, and bonded to each other so that the air inflow end and the air outflow end are disposed on opposite sides with the first and second medium facing surfaces in between.

Abstract: The present invention provides for the enhancement of the storage capacity of a data disk drive while reducing optical path optics, electronics and/or the mass and complexity of associated read/write heads. The system utilizes light transmitted by optical elements to servo track a data disk and to heat the data disk during reading and writing of data, and magnetic elements for actual reading and writing.

Abstract: A slider is provided for actively controlling a fly height of the slider relative to a data storage disc during operation of a data storage system. The slider includes a slider body having front and back surfaces, a length and a crown curvature on the front surface along the length. The slider also includes first and second elongated rails which are positioned on the front surface along the length of the slider body and form first and second bearing surfaces. Each bearing surface includes a leading portion, a trailing portion and a waist portion, wherein the waist portion is wider than the leading and trailing portions and has a maximum width within a middle half of the length of the slider body. A deformable material is positioned on the slider body having a dimension that is changeable in response to an electrical control signal applied in a deformable material, wherein a change in the dimension causes a change in the crown curvature.

Abstract: An air bearing slider for use in a disk drive that includes a rotatable magnetic disk. The slider includes a leading side and a trailing side. The slider further includes a pressurized pad including a pressurized pad air bearing surface. The pressurized pad is disposed between the leading and trailing sides. The slider further includes a contact pad disposed adjacent the trailing side and including a contact surface for sliding contact with the magnetic disk during operation of the disk drive. The contact pad includes a transducer disposed within the contact pad for reading and writing data from and to the magnetic disk. The slider further includes a depressed region disposed between the pressurized pad and the contact pad for mitigating air pressure adjacent the contact surface relative to air pressure adjacent the pressurized pad air bearing surface during operation of the disk drive.

Abstract: A slider body configuration, or slider, for carrying a data transducer in cooperative relationship with a rotating data storage disc. The slider includes a plurality of landing pads which serve to minimize the contact area between the slider and the discs when the heads are parked in contact with the discs, and the landing pads project from surfaces which are farther removed from the disc surface than the air bearing surfaces, thus minimizing the size and strength of any liquid miniscus formed between the slider and the disc when the slider and disc are in contact. By recessing the bases of the landing pads from the air bearing surfaces, the effect of the landing pads on the separation between the data transducer and the discs is minimized.

Abstract: The density of the magnetic head protective layer is set to be higher than the density of a magnetic disc medium protective layer. Also, the Young's modulus of the magnetic head protective layer is set to be higher than the Young's modulus of the magnetic disc medium protective layer. Furthermore, the thickness of the magnetic disc medium protective layer is set to be between 1 and 10 nm, and the hardness of the magnetic head protective layer is set to be between 1.5 and 2.0 times the hardness of the magnetic disc medium protective layer. It is thus possible to provide a highly reliable magnetic disc apparatus.

Abstract: A head disc interface having a fine pitch surface roughness including fine pitch projections having a relatively smooth roughness height and a projection pitch <1.0 &mgr;m for optimizing tribological performance.

Abstract: A data storage system capable of removing disk surface irregularities and/or contaminant particles on disk surfaces that may cause thermal asperities in the transducer output is provided. The data storage system provides selective in-situ operation between a normal read/write operation and a disk surface burnishing operation. One embodiment provides a data storage system, including: a data storage disk connected to a rotating actuator; a suspension load beam movably disposed above the data storage disk; and an air bearing slider assembly pivotally attached to the suspension load beam, the air bearing slider assembly including: a slider having an air bearing surface; a transducer disposed in a distal portion of the slider; a burnishing element disposed on the air bearing surface; and a pitch angle control assembly disposed in connection with the slider to control a pitch angle of the air bearing surface.

Abstract: A head media interface for contact starts and stops. The head media interface including a plurality of bumps extending from bearing surfaces of the slider and a data storage disc including a plurality of generally uniform holes extending below a relatively smooth base surface of the disc in a portion of the disc. The base surface interrupted by holes and the slider bumps forming a contact interface for CSS.

Abstract: A magnetic recording medium is obtained, which satisfies R−9709/N<6.6, when its surface is attracted by a magnetic head with a surface pressure of 250 gf/mm2 or less or has a load area ratio of 5% or less, where N is the number of asperities per &mgr;m square and R (nm) is an average of radii of curvature at peaks of the asperities. This magnetic recording medium does not cause dynamic attraction even if the head contact slides with it, and rotates stably, so that information can stabily be written/read well.

Abstract: A magnetic data storage system includes at least one storage disk having a data surface of concentric radial tracks and at least one burnishing track, a drive for rotating the disk; and a slider having an air bearing surface for air support of the slider over the data surface, wherein the burnishing track is a dedicated track for burnishing the slider.

Abstract: The present invention is directed to a disk drive that employs a proximity recording interface in which a slider that carries a head is designed to remain in contact with the disk during data transfer operations to achieve a high data density. In particular, the present invention is directed to cleaning debris from a pad on the slider that carries the head. The debris, if allowed to accumulate, can reach a depth at which the head is spaced from the disk at a distance which adversely affects the transfer of data with the disk. In one embodiment, the spin motor of the disk drive is caused to rotate at a lower angular velocity than during normal data transfer operations, preferably using open loop control, while the actuator of the disk drive is used to radially displace the slider and associated head, also preferably using open loop control. For a constant angular velocity of the disk, the change in radial position causes different areas of the pad to be contacted and cleaned by the disk.

Abstract: The density of the magnetic head protective layer is set to be higher than the density of a magnetic disc medium protective layer. Also, the Young's modulus of the magnetic head protective layer is set to be higher than the Young's modulus of the magnetic disc medium protective layer. Furthermore, the thickness of the magnetic disc medium protective layer is set to be between 1 and 10 nm, and the hardness of the magnetic head protective layer is set to be between 1.5 and 2.0 times the hardness of the magnetic disc medium protective layer. It is thus possible to provide a highly reliable magnetic disc apparatus.

Abstract: A storage device for storing information includes a disc storage medium having a disc surface. An armature is positioned over the disc surface and carries a head proximate the disc surface. Transducing circuitry is coupled to the head for reading and writing information onto the disc surface. A slider is coupled to the armature near an end of the armature for carrying the head and is adapted to position the transducing head proximate the disc surface. The slider includes an interface surface facing the disc surface having an air bearing region adapted to form an air bearing with the disc surface and having a contact pad extending from the air bearing region.

Abstract: A slider portion is provided with protrusion portions having a spherical surface, contacting a recording medium. A center of a magnetic pole is arranged on the line C1 connecting the vertices of the protrusion portions. Line C1 is more or less aligned with the gliding direction of the protrusion portions. Thereby, positional variations between the magnetic pole and the surface of the recording medium can be minimized even when the head slider is tilted with respect to the surface of the recording medium. Thus, a gliding converter support structure is provided whose conversion efficiency does not decrease when it is tilted with respect to the surface of the recording medium, which is easy to manufacture, has little gliding resistance, and does not easily accumulate dust.

Abstract: In a contact type magnetic disk drive, a suspension spring or a load beam spring has a length smaller than 5 mm inclusive. This successfully reduces the amplitude of vibration to occur during seek. Also, a magnetic head slider has a mass of greater than 2 mg inclusive and is urged against the disk medium by a load of less than 1 g inclusive, so that a mean wear thickness and maximum amount of jump are reduced. For the reduction of the mean wear thickness and maximum amount of jump, the disk medium may include a lubrication layer having a thickness of greater than 5 nm inclusive, or the suspension spring or the load beam spring may have its thickness sequentially reduced from the side adjoining the spring support mechanism toward the slider. The disk drive reduces the wear of the slider and that of a magnetic disk, and achieves durability and reliability as well as high-density recording.

Abstract: The density of the magnetic head protective layer is set to be higher than the density of a magnetic disc medium protective layer. Also, the Young's modulus of the magnetic head protective layer is set to be higher than the Young's modulus of the magnetic disc medium protective layer. Furthermore, the thickness of the magnetic disc medium protective layer is set to be between 1 and 10 nm, and the hardness of the magnetic head protective layer is set to be between 1.5 and 2.0 times the hardness of the magnetic disc medium protective layer. It is thus possible to provide a highly reliable magnetic disc apparatus.

Abstract: A magnetic recording head for reading and writing information with respect to a rotating disk medium includes a pad region having a working surface which contacts the recording medium. The pad region has a leading edge and a trailing edge with the leading edge facing in the general direction of relative motion between the head and the medium. The leading edge has a narrower width than the trailing edge so as to reduce the effect of debris accumulation at the disk-head interface. The narrower leading edge allows the head to deflect oncoming debris as the head traverses the surface of the rotating magnetic medium.

Abstract: A method of design of a magnetic recording slider and sensor geometry is disclosed which allows a magneto-resistive recording element to achieve a significantly reduced physical and magnetic spacing with a rigid magnetic recording disk in a disk drive, without resulting in thermal transients caused by sensor/disk contacts. The method utilizes pseudo-contact slider technology with an intentionally recessed MR sensor pole tip and alumina region. The reduced spacing achieved by pseudo-contact recording is significant compared to the spacing loss incurred by the proposed precision of the MR recoding element, resulting in a net reduction in head medium magnetic spacing.

Abstract: A disc-type recording medium arranged to be recorded/reproduced by a recording/reproducing head mounted on a head slider has a predetermined projection and pit pattern on the surface thereof and/or the head slider. In a state where the recording/reproducing head mounted on the head slider and the disc-type recording medium are in contact with each other, recording/reproducing is performed. As a result, abrasion between the recording/reproducing head and the disc-type recording medium can be prevented and an excellent recording/reproducing characteristic can be obtained.

Abstract: A magnetic recording contact slider is disclosed which allows a magneto-resistive recording element to achieve a significantly reduced physical and magnetic spacing with a rigid magnetic recording disk in a disk drive, without resulting in thermal transients caused by sensor/disk contacts. The slider utilizes a high air-bearing surface curvature to reduce the static friction between the slider and the recording disk.

Abstract: An information storage system having a ring head in such close proximity to a rigid magnetic storage disk that the magnetic field felt by the media layer or layers of the disk has a larger perpendicular than longitudinal component so that data is stored in a perpendicular mode. Reading of data is accomplished with a magnetoresistive sensor which may be coupled to the magnetically permeable core of the ring head far from the poletips, which may contact the disk. The media preferably has a high perpendicular anisotropy, and may be formed in a plurality of films with crystalline structures traversing the films.

Abstract: A disc storage system includes a rotating disc and a transducer. The transducer is carried on a slider which is supported by an armature. The armature is used to move the slider radially across the disc surface whereby information may be read from or written to the disc surface of the transducer. The slider includes an air bearing surface which faces the disc surface. As the disc rotates, the air bearing surface causes the slider to “fly” over the disc surface. Pads are provided on the air bearing surface to improve operational characteristics of the system.

Abstract: A quasi contact head comprises a slider with a flying surface opposed to a magnetic disk. A composite layer is formed on the slider at its trailing end so as to contain a head element such as an MR element. The head element is exposed at an exposure surface formed on the composite layer. A step serves to retract the exposure surface from the flying surface. An edge formed between the step and flying surface is subjected to grinding. The edge wears off during the initial rotation of the magnetic disk, so that the flying height of the slider can be set lower.