Patent application number | Description | Published |
20110001962 | METHOD FOR DEFECT DETERMINATION IN FINE CONCAVE-CONVEX PATTERN AND METHOD FOR DEFECT DETERMINATION ON PATTERNED MEDIUM - In the inspection of a defect in a fine concave-convex pattern, a spectral waveform of a detection area of an inspection object is detected, area determination as to which area section determined by a pattern type of the inspection object the detection area belongs to is performed, a feature calculation equation and a determination index value which correspond to a determined area section and vary according to defect type is selected, feature calculation on the spectral waveform data in accordance with the selected feature calculation equation is performed, and a calculated feature value and the selected determination index value are compared to perform determination processing according to defect type. | 01-06-2011 |
20120287426 | PATTERN INSPECTION METHOD AND DEVICE FOR SAME - In an optical inspection for patterned media for hard disks, a pattern inspection device is provided for inspecting patterns without being susceptible to variations in film thickness and film quality of an underlying film, the device includes optical characteristics detection means for detecting optical characteristics of multilayers by processing, upon the reflected light being dispersed and detected by the spectroscopic detection means, the reflected light from a non-patterned region on the substrate, and processing a detection signal corresponding to, and detecting optical characteristics of, the reflected light from the patterns including the multilayers; and pattern inspection means for inspecting the patterns formed on the multilayers, by viewing, upon the detection of the optical characteristics by the optical characteristics detection means, information on the optical characteristics of the reflected light from the multilayers, and processing information on the optical characteristics of the reflected light from the patterns including the multilayers. | 11-15-2012 |
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 |
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 |
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 |
20090161244 | Method and apparatus for inspecting defects of patterns formed on a hard disk medium - If an inspection method for inspecting a patterned medium is intended for the nanoimprint process control, it is necessary to measure a correct shape of each pattern element. On the other hand, if the inspection method is intended for the quality control of products, it is necessary to inspect the products on a 100 percent basis. However, the conventional method which uses SEM or AFM could not satisfy these requirements. | 06-25-2009 |
20090262621 | METHOD AND APPARATUS FOR INSPECTING A PATTERN SHAPE - An apparatus for inspecting a pattern shape of a magnetic record medium or its stamper includes: a moving mechanism, on which an object to be inspected where a pattern is formed is placed and which moves the object to be inspected in a radial direction while rotating the object; an irradiating optical system that applies illuminating light of a wide band including far ultraviolet light to the object to be inspected moved in the radial direction while rotating the object by the moving mechanism in a polarized state suitable for the object to be inspected from an oblique direction; a detecting optical system that detects zero-order reflected light generated from the object to be inspected irradiated by the irradiating optical system; and a shape inspection unit that inspects a pattern shape formed on the object to be inspected based on a spectral reflectance waveform obtained by dispersing the detected zero-order reflected light, thereby inspecting the pattern shape at a high speed and with high sensitivity. | 10-22-2009 |
20100085855 | METHOD AND DEVICE FOR DETECTING SHAPE OF SURFACE OF MEDIUM - A defect generated during a nano-imprint process is inspected by a scatterometry method. The scatterometry method is to illuminate the surface of a medium with light having a plurality of wave lengths by means of a first illuminator through a half mirror and an objective lens and cause light reflected on the medium to be incident on a spectrometer through the objective lens and the half mirror. A second illuminator illuminates a foreign material or scratch on the surface of the medium from an oblique direction with respect to the surface of the medium. Light is scattered from the foreign material or scratch and detected by first and second detectors. The first detector is placed in a direction defining a first elevation angle with the surface of the medium. The second detector is placed in a direction defining a second elevation angle with the surface of the medium. When coordinates of a defect that are obtained by the scatterometry method match coordinates of the foreign material or scratch, an inspection device determines that the defect is not generated during the nano-imprint process. When the matching is negative, the inspection device determines that the defect is generated during the nano-imprint process. | 04-08-2010 |
20100098320 | METHOD AND DEVICE FOR INSPECTING PATTERNED MEDIUM - An inspection region is specified using the design information to perform region division for measurement through a scatterometry method. The obtained detection data is classified by pattern into a periodic region and a non-periodic region. A spectroscopic characteristic is detected by an optical sensor to extract features. The extracted features are compared with features stored in a feature map database for each region to evaluate a state of a patterned medium. | 04-22-2010 |
20100124370 | PATTERN SHAPE INSPECTION METHOD AND APPARATUS THEREOF - This invention relates to a pattern shape inspection method and an apparatus thereof for conducting a first step of irradiating wideband illuminating light which contains far ultraviolet light to a sample from a perpendicular direction, inspecting a shape of the pattern based on a spectral waveform of reflecting light detected from the sample, and detecting an edge roughness of the pattern based on the spectral waveform of the reflecting light detected from the sample, and a second step of irradiating a laser beam to the sample from an oblique direction, and detecting the edge roughness of the pattern based on scattered light detected from the sample. | 05-20-2010 |
20100182589 | SPECTRAL DETECTION METHOD AND DEVICE, AND DEFECT INSPECTION METHOD AND APPARATUS USING THE SAME - In spectral detection for detecting the shape of repeating pattern structures uniformly formed on a surface of a test object, it is advantageous to use light having a wide wavelength range in a short wavelength region. However, it is not easy to realize a relatively simple optical system capable of spectral detection of light having a wide wavelength range in a short wavelength region, namely in ultraviolet region. The present invention provides an inspection apparatus for detecting pattern defects. The inspection apparatus includes a spectral detection optical system capable of spectral detection of light in a wavelength range from deep ultraviolet to near infrared. The spectral detection optical system includes a spatially partial mirror serving as a half mirror and a reflecting objective provided with an aperture stop for limiting the angle and direction of light to be applied to and reflected by a test object. | 07-22-2010 |