Patent application number | Description | Published |
20120291161 | CANTILEVER FOR MAGNETIC FORCE MICROSCOPE AND METHOD OF MANUFACTURING THE SAME - In a method of manufacturing this cantilever for the magnetic force microscope, a magnetic film is formed on a probe at a tip of the cantilever for the magnetic force microscope. When a non-magnetic rigid protective film is formed around the probe, the film is formed from the front of the probe of the cantilever for the magnetic force microscope at an angle (15° to 45°) and from the back of the probe of the cantilever for the magnetic force microscope in two directions each at an angle in a range of (15° to 30°). | 11-15-2012 |
20120307605 | Thermally Assisted Magnetic Recording Head Inspection Method and Apparatus - In a method and an apparatus for inspecting a thermally assisted magnetic recording head element, a specimen is mounted on a table movable in a plane of a scanning probe microscope device, evanescent light is generated from a portion of light emission of evanescent light of the specimen, scattered light of the evanescent light is detected by moving the table in the plane while a cantilever of the scanning probe microscope having a probe is vertically vibrated in the vicinity of a surface of the specimen, and an intensity distribution of the evanescent light emitted from the portion of light emission of evanescent light or a surface profile of the portion of light emission of evanescent light of the specimen is inspected using position information of generation of the evanescent light based on the detected scattered light. | 12-06-2012 |
20130265863 | THERMALLY ASSISTED MAGNETIC RECORDING HEAD INSPECTION METHOD AND APPARATUS - In a method and an apparatus for inspecting a thermally assisted magnetic recording head element, a specimen is mounted on a table movable in a plane of a scanning probe microscope device, evanescent light is generated from a portion of light emission of evanescent light of the specimen, scattered light of the evanescent light is detected by moving the table in the plane while a cantilever of the scanning probe microscope having a probe is vertically vibrated in the vicinity of a surface of the specimen, and an intensity distribution of the evanescent light emitted from the portion of light emission of evanescent light or a surface profile of the portion of light emission of evanescent light of the specimen is inspected using position information of generation of the evanescent light based on the detected scattered light. | 10-10-2013 |
Patent application number | Description | Published |
20130097739 | Cantilever of Scanning Probe Microscope and Method for Manufacturing the Same, Method for Inspecting Thermal Assist Type Magnetic Head Device and its Apparatus - To detect both of near-field light and magnetic field generated by a thermal assist type magnetic head and to perform inspection of the head, a cantilever of a scanning probe microscope has a lever in which a probe is formed, a thin magnetic film formed on a surface of the probe, and fine particles or thin film of noble metal or an alloy including noble metal formed on a surface of the magnetic film. An inspection apparatus has the cantilever, a displacement detection unit to detect vibration of the cantilever, a near-field light detection unit to detect scattered light caused by near-field light generated from a near-field light emitter and enhanced on the surface of the probe of the cantilever, and a processing unit to process signals obtained by detection with the displacement detection unit and the near-field light detection unit. | 04-18-2013 |
20140086033 | METHOD AND APPARATUS FOR INSPECTING THERMAL ASSIST TYPE MAGNETIC HEAD DEVICE - In order to enable inspection of the physical shape of a near-field light emitting portion of a thermal assist type magnetic head, a thermal assist type magnetic head device is placed on a table movable in a plane, a probe fixed to a cantilever scans a plane apart at a constant distance from the surface of the sample placed on the table while moving the table in a plane, the displacement of the cantilever is detected by applying light to the scanning cantilever and detecting reflected light from the cantilever, an atomic force microscope (AFM) image of the thermal assist type magnetic head device is formed using information about the detected displacement of the cantilever and positional information about the table, and the quality of a physical shape including the size or typical dimensions of the near-field light emitting portion is determined by processing the formed AFM image. | 03-27-2014 |
20140092717 | METHOD AND APPARATUS FOR INSPECTING THERMAL ASSIST TYPE MAGNETIC HEAD - An apparatus for inspecting a thermal assist type magnetic head is constituted by a scanning probe microscope means including a cantilever having a probe with a magnetic film formed on the surface of a tip portion thereof; a probe unit which provides an alternating current to a terminal formed on the thermal assist type magnetic head element and causes a pulse drive current or pulse drive voltage; a scattered light detection means which scans the near-field light emitting part with the probe to detect the scattered light generated from the probe in the generation region of the near-field light; an imaging means which image the thermal assist type magnetic head element; and a signal process means inspects the thermal assist type magnetic head element and an output signal outputted from the scanning probe microscope means by scanning with the probe while providing an alternating current to the terminal. | 04-03-2014 |
20140096293 | METHOD AND APPARATUS FOR INSPECTING THERMAL ASSIST TYPE MAGNETIC HEAD - To reliably detect scattered light generated in the near field light generation area in the inspection of a thermal assist type magnetic head (herein after refer to magnetic head), the present invention provides a magnetic head inspection apparatus including: a scanning probe microscope including a cantilever having a probe with a magnetic film formed on the surface of the tip; a probe unit for supplying alternating current to a terminal formed in a magnetic head element, so that the laser beam is incident on the near field light emitting part; an imaging unit for taking an image of the probe unit and the magnetic head element; a scattered light detection unit for detecting the scattered light generated from the probe present in the generation area of the near field light of the magnetic head element, through a pinhole; and a signal processing unit for inspecting the magnetic head element. | 04-03-2014 |