Patent application number | Description | Published |
20080203285 | Charged particle beam measurement equipment, size correction and standard sample for correction - Correction of widths obtained by measurement of a sample with the use of a scanning electron microscope is executed with greater precision. Use is made of a standard sample | 08-28-2008 |
20080210867 | Scanning Electron Microscope and Calibration of Image Distortion - In method and apparatus for obtaining a scanning electron microscope image devoid of distortion by measuring a scanning distortion and calibrating the scanning distortion, there occurs a problem that an error takes place in dimension control owing to a scanning distortion of an electron beam. To cope with this problem, an image is obtained by scanning a predetermined region with the electron beam, a plurality of regions are selected from the image, the pattern pitch is measured in each of the regions and a scanning distortion amount is calculated from the result of measurement and then corrected. | 09-04-2008 |
20080251868 | Standard component for calibration and electron-beam system using the same - The invention provides a standard component for calibration that enables a calibration position to be easily specified in order to calibrate accurately a scale factor in the electron-beam system, and provides an electron-beam system using it. High-accuracy metrology calibration capable of specifying a calibration position can be realized by forming a mark pattern or labeled material for identifying the calibration position in proximity of a superlattice pattern of the standard component for system calibration. The standard component for calibration is one that calibrates a scale factor of an electron-beam system based on a signal of secondary charged particles detected by irradiation of a primary electron beam emitted from the electron-beam system on a substrate having a cross section of a superlattice of a multi-layer structure in which different materials are deposited alternately. The substrate have linear patterns that are on the substrate surface parallel to the multi-layer and are arranged at a fixed interval in a direction crossing the cross section of the superlattice pattern, and is so configured that the cross sections of the linear patterns may exist on substantially the same plane of the superlattice cross section, so that the linear patterns enable a position of the superlattice pattern to be identified. | 10-16-2008 |
20090136116 | Method and apparatus for inspecting reticle - The present invention provides a reticle inspection technology that enables a relative position between patterns to be evaluated for a pattern that may become a defect at the time of exposure to a sample, such as a wafer, in the double patterning technology on the same layer. An apparatus for inspecting a reticle for inspecting two reticles that are used in order to form patterns in the same layer on a substrate using the double patterning technology has: a coordinate information input unit for inputting coordinate information of a pattern of a measuring object; an image input unit for acquiring images of patterns of the two reticles based on the obtained coordinate information; an image overlay unit for overlaying the images of the two reticles at the same coordinates; a relative position calculation unit for finding the relative position between the patterns on the two reticles; an evaluation unit for assigning an index of the overlaying accuracy based on the relative position and evaluates whether the two reticles need repair; and an evaluation result output unit for outputting an evaluation result. | 05-28-2009 |
20090146057 | ELECTRON BEAM MEASUREMENT APPARATUS - The present invention provides an electron beam measurement technique for measuring the shapes or sizes of portions of patterns on a sample, or detecting a defect or the like. An electron beam measurement apparatus has a unit for irradiating the patterns delineated on a substrate by a multi-exposure method, and classifying the patterns in an acquired image into multiple groups according to an exposure history record. The exposure history record is obtained based on brightness of the patterns and a difference between white bands of the patterns. | 06-11-2009 |
20090206252 | Defect inspection method and its system - A method for enabling management of fatal defects of semiconductor integrated patterns easily, the method enables storing of design data of each pattern designed by a semiconductor integrated circuit designer, as well as storing of design intent data having pattern importance levels ranked according to their design intents respectively. The method also enables anticipating of defects to be generated systematically due to the characteristics of the subject exposure system, etc. while each designed circuit pattern is exposed and delineated onto a wafer in a simulation carried out beforehand and storing those defects as hot spot information. Furthermore, the method also enables combining of the design intent data with hot spot information to limit inspection spots that might include systematic defects at high possibility with respect to the characteristics of the object semiconductor integrated circuit and shorten the defect inspection time significantly. | 08-20-2009 |
20110095183 | ELECTRON BEAM MEASUREMENT APPARATUS - The present invention provides an electron beam measurement technique for measuring the shapes or sizes of portions of patterns on a sample, or detecting a defect or the like. An electron beam measurement apparatus has a unit for irradiating the patterns delineated on a substrate by a multi-exposure method, and classifying the patterns in an acquired image into multiple groups according to an exposure history record. The exposure history record is obtained based on brightness of the patterns and a difference between white bands of the patterns. | 04-28-2011 |
20110133065 | Standard Member for Correction, Scanning Electron Microscope Using Same, and Scanning Electron Microscope Correction Method - Disclosed is a standard specimen, used with an electron microscope to correct the magnification with high precision. A standard member used for correction corrects a scanning electron microscope that measures a pattern within an observation region based on information about the secondary electrons generated by scanning incident electron lines on the observation region on a measurement specimen, or information about the reflected electron intensity. The standard member has a first pattern region that corrects the magnification and that comprises a concavo-convex pattern (line/space pattern) in the cross section of a multilayer film that has been laminated, and a second pattern region near the first pattern at almost the same height that does not contain a pattern with the same periodicity as the pattern pitch size of the first region and that is used for beam adjustment. | 06-09-2011 |
20110147586 | Charged Particle Beam Device - The astigmatism control processing time is decreased to 1 second or less by improving the astigmatic difference measurement accuracy. A charged particle beam device includes: a stage on which a sample is loaded; a transport mechanism which carries the sample onto the stage; a charged particle beam optical system which irradiates the sample on the stage with a charged particle beam and detects secondary charged particles generated from the sample; and a controller which determines setup parameters for the charged particle beam optical system and controls the charged particle beam optical system. The controller registers and holds electro-optical system setup parameters for irradiation with a beam tilted from a normal line on the sample as the charged particle beam, compares observation images obtained by the tilted beam, measures the amount and direction of movement and calculates the amount of astigmatism correction from the amount of movement and the direction. | 06-23-2011 |
20110249110 | SCANNING ELECTRON MICROSCOPE - Provided is a scanning electron microscope including: an image recording unit ( | 10-13-2011 |
20110274341 | CHARGED BEAM DEVICE - In order to provide a charged beam device capable of obtaining a precise image of a sample surface pattern while improving the accuracy of automatic focus/astigmatism correction, there are provided an electron gun ( | 11-10-2011 |
20120217393 | Electron Microscope - A scanning electron microscope suppresses a beam drift by reducing charging on a sample surface while suppressing resolution degradation upon observation of an insulator sample. An electron microscope includes an electron source and an objective lens that focuses an electron beam emitted from the electron source, which provides an image using a secondary signal generated from the sample irradiated with the electron beam. A magnetic body with a continuous structure and an inside diameter larger than an inside diameter of an upper pole piece that forms the objective lens is provided between the objective lens and the sample. | 08-30-2012 |
20120286158 | SCANNING ELECTRON MICROSCOPE AND INSPECTION METHOD USING SAME - Provided is a high-resolution scanning electron microscope with minimal aberration, and equipped with an electro-optical configuration that can form a tilted beam having wide-angle polarization and a desired angle, without interfering with an electromagnetic lens. In the scanning electron microscope, an electromagnetic deflector ( | 11-15-2012 |
20120286160 | CHARGED PARTICLE INSTRUMENT - A charged particle instrument including a controlling and operating unit for controlling a charged particle source, deflecting means, and focus changing means and making a data for an image by an electric signal detected by a detector, and a recording unit for preserving a correction coefficient registered at each image-acquisition, in which the controlling and operating unit acquires plural images while changing a focus, and controls an optical condition such that a landing angle of a charged particle beam becomes perpendicular when an image for measurement is acquired on the basis of a position shift amount of a mark in the image and a correction coefficient registered to the recording unit. | 11-15-2012 |
20120327213 | Charged Particle Beam Microscope - Disclosed is a charged particle beam microscope which can obtain information about pattern materials and stereostructure without lowering throughput of pattern dimension measurement. To achieve this, the charged particle beam microscope acquires a plurality of frame images by scanning the field of view of the sample (S | 12-27-2012 |
20130026361 | PATTERN EVALUATION METHOD, DEVICE THEREFOR, AND ELECTRON BEAM DEVICE - An amount of pattern position displacement between observation images acquired by irradiating from two different directions is changed depending on beam deflection for moving an image acquisition position. In a pattern evaluation method that measures astigmatic difference or focus position displacement having a small amount of dose at a high speed using parallax caused by the tilted beam, a correction value obtained in advance by measurement is reflected in an amount of pattern position displacement between observation images obtained by irradiating from at least two different directions and generated in accordance with the amount of beam deflection for moving an image acquisition position. A processing unit calculates an amount of correction of an amount of pattern position displacement depending on beam deflection of a beam deflecting unit for moving an image acquisition position on the sample at a high speed. | 01-31-2013 |
20130175447 | Scanning Electron Microscope - Provided is a scanning electron microscope equipped with a high-speed and high-precision astigmatism measuring means to be used when both astigmatism generated by an electron-beam column and astigmatism generated from the surroundings of a measuring sample exist. This scanning electron microscope is characterized in controlling an astigmatism corrector ( | 07-11-2013 |
20130270435 | ELECTRON BEAM DEVICE - The electron beam device includes a source of electrons and an objective deflector. The electron beam device obtains an image on the basis of signals of secondary electrons, etc. which are emitted from a material by an electron beam being projected. The electron beam device further includes a bias chromatic aberration correction element, further including an electromagnetic deflector which is positioned closer to the source of the electrons than the objective deflector, and an electrostatic deflector which has a narrower interior diameter than the electromagnetic deflector, is positioned within the electromagnetic deflector such that the height-wise position from the material overlaps with the electromagnetic deflector, and is capable of applying an offset voltage. It is thus possible to provide an electron beam device with which it is possible to alleviate geometric aberration (parasitic aberration) caused by deflection and implement deflection over a wide field of view with high resolution. | 10-17-2013 |