Class / Patent application number | Description | Number of patent applications / Date published |
427131000 | Applying superposed diverse coating or coating a coated base | 42 |
20080220157 | PERPENDICULAR MAGNETIC RECORDING MEDIUM AND METHOD FOR MANUFACTURING SAME - A perpendicular magnetic recording medium is disclosed in which each magnetic crystal grain in the magnetic recording layer has a multilayer structure and has a configuration like a truncated cone shape, in which the crystal grain of the final layer deposited in the film surface side at the final stage is smaller than the diameter of the crystal grain in the initial layer deposited on the substrate side at the initial stage. The invention improves S/N (signal output to noise ratio) by enhancing signal output and reducing noises. The medium is produced by a simple manufacturing method suitable for mass production, and provides a medium of high recording density by improving recording resolution. | 09-11-2008 |
20080260942 | MAGNETIC RECORDING MEDIUM, METHOD FOR MANUFACTURING RECORDING MEDIUM AND MAGNETIC RECORDATION APPARATUS - A grain diameter controlling crystalline layer comprising crystalline grains of a metal selected from the group consisting essentially of Cu, Ni, Rh and Pt was formed on a substrate. Then, deposited atom layer of at least one element selected from the group consisting of oxygen and carbon was formed on the surface of the grain diameter control layer. A magnetic recording layer was deposited on the atoms deposited grain diameter controlling crystalline layer. Then a magnetic recording medium in which the magnetic crystalline grains has small grain diameter and small grain diameter distribution, and the magnetic recording medium shows increased signal to noise ratio at high recording density. | 10-23-2008 |
20080260943 | Process for composite free layer in CPP GMR or TMR device - The conventional free layer in a CPP GMR or TMR read head has been replaced by a tri-layer laminate comprising Co rich CoFe, moderately Fe rich NiFe, and heavily Fe rich NiFe. The result is an improved device that has a higher MR ratio than prior art devices, while still maintaining free layer softness and acceptable magnetostriction. A process for manufacturing the device is described. | 10-23-2008 |
20090068347 | Method of Forming a Micromagnetic Device - A method of forming a micromagnetic device including providing a substrate and forming a magnetic core layer over the substrate from a magnetic alloy. The magnetic alloy includes iron, cobalt and phosphorous. A content of the cobalt is in a range of 1.8 to 4.5 atomic percent. A content of the phosphorus is in a range of 20.1 to 30 atomic percent. A content of the iron is substantially a remaining proportion of the magnetic alloy. | 03-12-2009 |
20090104346 | HIGH DENSITY MAGNETIC RECORDING MEDIA - A longitudinal magnetic recording medium comprising at least four magnetic layers including a substrate, a CoCrTa magnetic intermediate layer on the substrate, wherein the CoCrTa magnetic intermediate layer comprises Cr <16 at % and Ta <6 at %, a first CoCrPtB magnetic layer on the CoCrTa layer, wherein the first CoCrPtB magnetic layer comprises Cr: 10-14%, Pt: 4-8 at %, B: 6-10%, a second CoCrPtB magnetic layer on the first CoCrPtB magnetic layer, and a third CoCrPtB magnetic layer on the second CoCrPtB layer, wherein the third CoCrPtB magnetic layer comprises Cr: 12-16 at %, Pt: 12-16 at %, B: 10-14 at % and has <10 at % Cr than that in the second CoCrPtB magnetic layer is disclosed. | 04-23-2009 |
20090130302 | System and method for pre-treating magnetic ink character recognition readable documents - Disclosed herein is a printing system is described having a first printer including a fuser employing fuser oil, and a coater disposed upstream or downstream from the first printer and being configured to deposit a wax coating on a portion of the substrate. A corresponding method and a substrate also are described. The system, method and substrate are useful for preparing MICR encoded documents such as checks. | 05-21-2009 |
20090148595 | Method of Manufacturing Magnetoresistance Effect Element and Apparatus for Manufacturing the Same - A method of manufacturing a magnetoresistance effect element having a high MR ratio even with a low RA and an apparatus of the same are provided. The magnetoresistance effect element having an MgO (magnesium oxide) layer provided between a ferromagnetic layer and a second ferromagnetic layer is manufactured by forming a film of the MgO layer in a film forming chamber in which a substance whose getter effect with respect to the oxidizing gas such as oxygen or water is large is adhered to the surfaces of components (an inner wall | 06-11-2009 |
20090181166 | RECORDING MEDIUM AND METHOD OF MAKING THE SAME - A recording medium includes a substrate, a recording layer provided with perpendicular magnetic anisotropy for recording of information, a foundation layer disposed between the substrate and the recording layer, an initial layer which is greater in surface tension than the foundation layer and held in contact with a recoding-layer-side surface of the foundation layer, and a functional layer held in contact with a recoding-layer-side surface of the initial layer. | 07-16-2009 |
20090191332 | Method for manufacturing magnetic recording medium and connecting device used in manufacturing magnetic recording medium - In a method for manufacturing a magnetic recording medium, a plurality of vacuum film-formation devices formed separately and operated independently is prepared. The plurality of vacuum film-formation devices is connected by a connecting device provided with a disk transport system. | 07-30-2009 |
20090214768 | PROCESS FOR PRODUCING MAGNETIC RECORDING MEDIUM - A process for producing a magnetic recording medium is provided, the process comprising in sequence a step of forming a non-magnetic layer by applying a non-magnetic coating liquid above a non-magnetic support, a step of curing the non-magnetic layer by irradiation with radiation, and a step of forming a magnetic layer above the cured non-magnetic layer, the non-magnetic coating liquid comprising a resin having a hydroxy group and/or an amino group and a compound having an isocyanato group and/or a substituent represented by Formula (1) below and a radiation curing functional group. | 08-27-2009 |
20090285981 | Method in the fabrication of a ferroelectric memory device - In a method in the fabrication of a ferroelectric memory device comprising a memory layer sandwiched between first and second electrode sets, the memory layer as well as both electrode sets are each realized in the memory device by a suitable printing process. | 11-19-2009 |
20090297700 | METHOD FOR MAKING A CURRENT-PERPENDICULAR-TO-THE-PLANE GIANT MAGNETORESISTANCE (CPP-GMR) SENSOR WITH A CONFINED-CURRENT-PATH (CCP) - A method of making a current-perpendicular-to-the-plane giant magnetoresistive (CPP-GMR) sensor with a confined-current-path (CCP) layer uses an array of self-assembled ferritin protein molecules with inorganic cores to make the CCP layer in the sensor stack. In one embodiment, the ferritin molecules with cores of insulating oxide particles are deposited on an electrically conductive support layer and the ferritin molecules are dissolved, leaving an array of insulating oxide particles. An electrically conducting layer is deposited over the oxide particles and into the regions between the oxide particles to form the CCP layer. In another embodiment, the ferritin molecules with inorganic particles in their cores are deposited on an electrically insulating support layer and the ferritin molecules are dissolved, leaving an array of inorganic particles that function as an etch mask. The insulating support layer is then etched through the mask to form vias down to the underlying layer on which the support layer is formed. An electrically conducting layer is then deposited to form the CCP layer. | 12-03-2009 |
20090324814 | MgO Tunnel Barriers and Method of Formation - MgO tunnel barriers are formed by depositing a thin layer of Mg on a suitable underlayer, and then directing oxygen and additional Mg towards the Mg layer. The oxygen reacts with the additional Mg and the Mg in the Mg layer to form a MgO tunnel barrier that enjoys excellent tunneling characteristics. The MgO tunnel barriers so formed may be used in magnetic tunnel junctions having tunneling magnetoresistance (TMR) values of greater than 100%. The highest TMR values are observed for junctions that have been annealed and that have a (100) crystallographic orientation. | 12-31-2009 |
20100080894 | FABRICATING METHOD OF MAGNETORESISTIVE ELEMENT, AND STORAGE MEDIUM - The present invention provides a fabricating method of a magnetoresistive element having an MR ratio higher than a conventional MR ratio. In a step of depositing a magnetization fixed layer, a magnetization free layer, and a tunnel barrier layer on a substrate using a sputtering method in one embodiment of the present invention, the step of depositing the magnetization fixed layer deposits a ferromagnetic layer containing Co atoms, Fe atoms, and B atoms by a co-sputtering method using a first target containing Co atoms, Fe atoms and B atoms, and a second target having different B atom content from that of the first target. | 04-01-2010 |
20100209601 | METHOD OF MANUFACTURING A MAGNETIC DISK - On manufacturing a magnetic disk having at least a magnetic layer ( | 08-19-2010 |
20100215846 | GRANULAR PERPENDICULAR MAGNETIC RECORDING MEDIA WITH DUAL RECORDING LAYER AND METHOD OF FABRICATING SAME - A granular perpendicular magnetic recording medium comprises a non-magnetic substrate and a granular perpendicular magnetic recording layer overlying the substrate, comprising a first granular perpendicular magnetic layer proximal the substrate and having a first saturation magnetization (M | 08-26-2010 |
20100227050 | METHOD AND APPARATUS FOR MANUFACTURING MAGNETIC RECORDING MEDIUM - The present invention provides a method for manufacturing a magnetic recording medium by mounting a substrate for film formation on a carrier, sequentially transporting said substrate into a plurality of connected chambers, and forming at least a magnetic film and a carbon protective film on said substrate for film formation within said chambers, wherein said method comprises a step of conducting ashing to remove an accumulated carbon protective film adhered to a carrier surface, which is performed following a step of removing a magnetic recording medium from said carrier following film formation, but prior to a step of mounting a substrate for film formation on said carrier. | 09-09-2010 |
20100266755 | FERROMAGNETICALLY COUPLED MAGNETIC RECORDING MEDIA - A ferromagnetically coupled magnetic recording medium having a first ferromagnetic layer, a second ferromagnetic layer, and a ferromagnetic coupling layer to ferromagnetically couple the first ferromagnetic layer to the second ferromagnetic layer is used as stable magnetic media with high MrT in high density recording hard drives. The first ferromagnetic layer is the stabilization layer and the second ferromagnetic layer is the main recording layer. The ferromagnetic coupling layer comprises a conductive material having a thickness which produces ferromagnetic coupling between said first ferromagnetic layer and said second ferromagnetic layer via the RKKY interaction. | 10-21-2010 |
20110244119 | PERPENDICULAR MAGNETIC RECORDING MEDIUM AND METHOD OF MANUFACTURING THE SAME - A vertical magnetic recording disc ( | 10-06-2011 |
20110262634 | METHOD OF MANUFACTURING MAGNETORESISTIVE DEVICE AND APPARATUS FOR MANUFACTURING THE SAME - A magnetoresistive device has an MgO (magnesium oxide) layer provided between a first ferromagnetic layer and a second ferromagnetic layer. The device is manufactured by forming a film of the MgO layer in a film forming chamber. A substance whose getter effect with respect to an oxidizing gas is large is adhered to surfaces of components provided in the chamber for forming the MgO layer. The substance having a large getter effect is a substance whose value of oxygen gas adsorption energy is 145 kcal/mol or higher. Ta (tantalum), in particular, is preferable as a substance which constitutes the magnetoresistive device. | 10-27-2011 |
20120009337 | Novel CPP device with an enhanced dR/R ratio - A CPP-GMR spin valve having a composite spacer layer comprised of at least one metal (M) layer and at least one semiconductor or semi-metal (S) layer is disclosed. The composite spacer may have a M/S, S/M, M/S/M, S/M/S, M/S/M/S/M, or a multilayer (M/S/M) | 01-12-2012 |
20120040089 | CURRENT-PERPENDICULAR-TO-PLANE (CPP) READ SENSOR WITH MULTIPLE REFERENCE LAYERS - A current-to-perpendicular-to-plane (CPP) read sensor with multiple reference layers and associated fabrication methods are disclosed. According to one embodiment of the invention, the multiple reference layers of a CPP tunneling magnetoresistance (TMR) read sensor includes a first reference layer formed by a ferromagnetic polycrystalline Co—Fe film, a second reference layer formed by a ferromagnetic substitute-type amorphous Co—Fe—X film where X is Hf, Zr or Y, and a third reference layer formed by a ferromagnetic interstitial-type amorphous Co—Fe—B film. The first reference layer facilitates the CPP TMR read sensor to exhibit high exchange and antiparallel-coupling fields. The second reference layer provides a thermally stable flat surface, thus facilitating the CPP TMR read sensor to exhibit a low ferromagnetic-coupling field. The multiple reference layers may induce spin-dependent scattering, thus facilitating the CPP TMR sensor to exhibit a high TMR coefficient. | 02-16-2012 |
20120164321 | ELECTRIC FIELD/MAGNETIC FIELD SENSORS AND METHODS OF FABRICATING THE SAME - An electric field sensor is obtained by directly forming an electrooptical film of Fabry-Perot resonator structure on a polished surface at a tip of an optical fiber by an aerosol deposition method. | 06-28-2012 |
20120171369 | METHOD FOR PRODUCING A PERPENDICULAR MAGNETIC RECORDING MEDIUM - To provide a method for manufacturing a perpendicular magnetic recording medium, which is capable of coping with the much higher recording density. | 07-05-2012 |
20120207919 | Method of Manufacturing a Perpendicular Magnetic Disc - A method of manufacturing a perpendicular magnetic disk comprises forming, on a base, a film of a first ground layer made of Ru or a Ru alloy at a first pressure, forming, on the first ground layer, a film of a second ground layer made of Ru or a Ru alloy at a second pressure higher than a first pressure, forming, on the second ground layer, a film of a third ground layer having Ru or a Ru alloy as a main component and an oxide as an accessory component at a third pressure higher than the first pressure and lower than the second pressure, and forming, on a layer above the third ground layer, a film of a granular magnetic layer in which a non-magnetic substance having an oxide is segregated around magnetic particles having an CoCrPt alloy grown in a columnar shape to form a grain boundary. | 08-16-2012 |
20120258242 | IN-LINE FILM-FORMING APPARATUS, METHOD OF MANUFACTURING MAGNETIC RECORDING MEDIUM, AND GATE VALVE - Provided is an in-line film-forming apparatus capable of opening and closing a gate valve at a high speed while preventing the occurrence of vibration due to the opening and closing of the gate valve. In the in-line film-forming apparatus, immediately before a piston ( | 10-11-2012 |
20120308722 | METHODS FOR IMPROVING THE STRENGTH OF GLASS SUBSTRATES - Methods for improving the strength of glass substrates are described. One such method for strengthening a glass disk substrate for a storage device includes immersing at least a portion of the glass substrate in a solution, the solution including a solvent and a coating material selected from the group consisting of NaOH, KOH, and KNO | 12-06-2012 |
20130052340 | METHODS FOR FABRICATING MAGNETIC WRITER STRUCTURES USING POST-DEPOSITION TILTING - A method according to one embodiment includes forming a first portion of a thin film writer structure on a substantially planar portion of a substrate such that planes of deposition of the first portion of the writer structure are substantially parallel to a plane of the substrate; forming a portion of a write gap of the writer structure at an angle of greater than 0° relative to the substantially planar portion of the substrate; and causing the writer structure to tilt at an angle relative to the plane of the substrate such that a plane of deposition of the write gap is oriented about perpendicular to a final media-facing surface of the writer structure. | 02-28-2013 |
20130230647 | PERPENDICULAR MAGNETIC RECORDING MEDIUM AND METHOD OF MANUFACTURING THE SAME - A perpendicular magnetic recording medium comprises a magnetic recording layer that records a signal, an underlayer formed of Ru or Ru compound below the magnetic recording layer, a non-magnetic layer formed of a non-magnetic material below the underlayer to control crystal orientation of the underlayer, a soft magnetic layer provided below the non-magnetic layer, and a substrate on which the magnetic recording layer, the underlayer, the non-magnetic layer, and the soft magnetic layer are formed. The non-magnetic layer comprises a first non-magnetic layer formed above the soft magnetic layer and a second non-magnetic layer formed above the first non-magnetic layer. The first non-magnetic layer is formed of amorphous Ni compound while the second non-magnetic layer is formed of crystalline Ni or crystalline Ni compound. | 09-05-2013 |
20140079877 | MAGNETIC RECORDING MEDIUM FABRICATION METHOD AND APPARATUS - A method of fabricating a magnetic recording medium sequentially forms a magnetic recording layer, a protection layer, and a lubricant layer on a stacked body. The lubricant layer is formed by vapor-phase lubrication without exposing the stacked body to atmosphere after forming the protection layer on the stacked body. A region having a gas pressure P | 03-20-2014 |
20140099437 | MAGNETIC RECORDING MEDIUM FABRICATION METHOD AND APPARATUS - A method of fabricating a magnetic recording medium sequentially forms a magnetic recording layer, a protection layer, and a lubricant layer on a stacked body. The stacked body is enclosed in a transfer container unit without exposing the stacked body to atmosphere after forming the protection layer on the stacked body by a deposition apparatus, and the transfer container unit is transported to a vapor-phase lubrication deposition apparatus. The stacked body is removed from the transfer container unit without exposing the stacked body to the atmosphere, in order to form the lubricant layer on the stacked body within the vapor-phase lubrication deposition apparatus. | 04-10-2014 |
20140199476 | MAGNETIC RECORDING MEDIUM FABRICATION METHOD AND APPARATUS - A method of fabricating a magnetic recording medium sequentially forms a magnetic recording layer, a protection layer, and a lubricant layer on a stacked body. The stacked body is enclosed in a transfer container unit without exposing the stacked body to atmosphere after forming the protection layer on the stacked body by a deposition apparatus, and the transfer container unit is transported to a vapor-phase lubrication deposition apparatus. The stacked body is removed from the transfer container unit without exposing the stacked body to the atmosphere, in order to form the lubricant layer on the stacked body within the vapor-phase lubrication deposition apparatus. | 07-17-2014 |
20140212579 | MAGNETIC RECORDING MEDIUM FABRICATION METHOD - A method of fabricating a magnetic recording medium by sequentially forming a magnetic recording layer, a protection layer, and a lubricant layer on a stacked body, includes forming the lubricant by depositing a first lubricant on the stacked body after forming the protection layer, by vapor-phase lubrication deposition, without exposing the stacked body to atmosphere, and depositing a second lubricant that is dissolved in an organic solvent onto the stacked body after depositing the first lubricant. | 07-31-2014 |
20140220240 | Patterned MR Device with Controlled Shape Anisotropy - A magnetic sensor with increased sensitivity, lower noise, and improved frequency response is described. The sensor's free layer is ribbon shaped and is closely flanked at each long edge by a ribbon of magnetically soft, high permeability material. The side stripes of soft magnetic material absorb external field flux and concentrate the flux to flow into the sensor's edges to promote larger MR sensor magnetization rotation. The free layer may be deposited simultaneously with the soft magnetic layer when they are aligned in the same plane. When the flux absorbing stripes are positioned above or below the MR sensor, then the free layer and flux absorbing stripes are deposited in separate steps. | 08-07-2014 |
20140242268 | MAGNETIC RECORDING MEDIUM FABRICATION METHOD AND APPARATUS - A method of fabricating a magnetic recording medium sequentially forms a magnetic recording layer, a protection layer, and a lubricant layer on a stacked body. The lubricant layer is formed on a surface of the protection layer by vapor-phase lubrication without exposing the stacked body to atmosphere after forming the protection layer on the stacked body. Nitrogen atoms or oxygen atoms are injected onto the surface of the protection layer after forming the protection layer and before forming the lubricant layer. | 08-28-2014 |
20140322437 | NON-MAGNETIC PARTICLES FOR NON-MAGNETIC UNDERCOAT LAYER OF MAGNETIC RECORDING MEDIUM, AND MAGNETIC RECORDING MEDIUM - The present invention relates to non-magnetic particles for non-magnetic undercoat layer of magnetic recording medium, comprising: hematite particles; an inner coating layer comprising a phosphorus-containing inorganic compound which is formed on a surface of the respective hematite particles; and an outer coating layer comprising an aluminum-containing inorganic compound which is formed on an outside of the inner coating layer comprising the phosphorus-containing inorganic compound. | 10-30-2014 |
20140363569 | PERPENDICULAR MAGNETIZATION WITH OXIDE INTERFACE - A mechanism is provided for a structure with perpendicular magnetic anisotropy. A bottom oxide layer is disposed, and a magnetic layer is disposed adjacent to the bottom oxide layer. The magnetic layer includes iron and is magnetized perpendicularly to a plane of the magnetic layer. A top oxide layer is disposed adjacent to the magnetic layer. | 12-11-2014 |
20150064347 | METHOD FOR PRODUCING HARD DISK SUBSTRATE - An object of the present invention is to obtain a hard disk substrate that can have a smooth surface of a plating film through electroless NiP plating and does not have deteriorated corrosion resistance against acid solutions. A method for producing a hard disk substrate of the present invention includes a first plating step of immersing a substrate in a first electroless NiP plating bath containing an additive with leveling action, thereby forming a lower layer of the electroless NiP plating film on a surface of the substrate, the lower layer having smaller average surface roughness than the surface; and a second plating step of immersing the substrate that has the lower layer of the electroless NiP plating film formed thereon through the first plating step in a second electroless NiP plating bath, thereby forming an upper layer of the electroless NiP plating film, the upper layer having corrosion resistance against acid solutions. Exposure of the lower layer to the atmosphere is suppressed in the period during transition from the first plating step to the second plating step. | 03-05-2015 |
20150125598 | METHOD FOR PRODUCING HARD DISK SUBSTRATE - An object of the present invention is to obtain a hard disk substrate that can have a smooth surface of a plating film through electroless NiP plating and does not have deteriorated corrosion resistance against acid solutions. A method for producing a hard disk substrate of the present invention is a method for producing a hard disk substrate with an electroless NiP plating film, the method including immersing a substrate in a first electroless NiP plating bath containing an additive with leveling action, thereby forming a lower layer of the electroless NiP plating film on a surface of the substrate, the lower layer having smaller average surface roughness than the surface; and immersing the substrate that has the lower layer of the electroless NiP plating film formed thereon through the first plating step in a second electroless NiP plating bath, thereby forming an upper layer of the electroless NiP plating film, the upper layer having corrosion resistance against acid solutions and having a thickness of greater than or equal to 4 μm. | 05-07-2015 |
20150299850 | Graphene Spin Filters via Chemical Vapor Deposition - A method of making a graphene spin filter device by chemical vapor deposition comprising providing a first crystalline ferromagnetic metal surface, performing chemical vapor deposition and growing a graphene film on the first ferromagnetic metal surface, and depositing a second ferromagnetic film on the graphene film. A graphene spin filter device wherein the graphene is grown by chemical vapor deposition comprising a first crystalline ferromagnetic metal surface, a graphene film grown by chemical vapor deposition on the first ferromagnetic metal surface, and a second ferromagnetic film on the graphene film. | 10-22-2015 |
20150348575 | Giant Magnetoresistive Sensor Having Horizontal Stabilizer - A giant magnetoresistive (GMR) sensor for reading information from a magnetic storage medium has a first non-magnetoresistive layer, a first magnetoresistive layer formed on the first non-magnetoresistive layer, a second non-magnetoresitive layer formed on the first magnetoresistive layer, a second magnetoresistive layer formed on the second non-magnetoresistive layer, and a third non-magnetoresistive layer formed on the second magnetoresistive layer. The first non-magnetoresistive layer is provided with a single step on a surface of the first non-magnetoresistive layer. The step has an edge extending in a direction substantially parallel to a plane of a working surface of the GMR sensor. | 12-03-2015 |
20160140993 | THERMAL RETENTION STRUCTURE FOR A DATA DEVICE - A data device may have at least a magnetic lamination with a thermal retention structure deposited on a substrate and configured to maintain a predetermined temperature for a predetermined amount of time. Such predetermined temperature and amount of time may allow for the growth of a magnetic layer with a predetermined magnetic anisotropy. | 05-19-2016 |