Patent application number | Description | Published |
20080230697 | CHARGED PARTICLE BEAM APPARATUS - A charged particle beam apparatus that can achieve both high defect-detection sensitivity and high inspection speed for a sample with various properties in a multi-beam type semiconductor inspection apparatus. The allocation of the primary beam on the sample is made changeable, and furthermore, the beam allocation for performing the inspection at the optimum inspection specifications and at high speed is selected based on the property of the sample. In addition, many optical parameters and apparatus parameters are optimized. Furthermore, the properties of the selected primary beam are measured and adjusted. | 09-25-2008 |
20080315093 | Electron beam inspection method and electron beam inspection apparatus - An electron beam inspection apparatus images reflected electrons and cancels negative charging derived from electron-beam irradiation. Ultraviolet rays are irradiated and an irradiated area of ultraviolet rays is displayed as a photoelectron image. The photoelectron image and a reflected-electron image are displayed on a monitor while being superposed on each other, to easily grasp the positional relationship between the images and the difference in size between them. Specifically, the shape of the irradiated area of an electron beam includes the shape of the irradiated area of ultraviolet rays on a display screen. The intensity of the ultraviolet rays in the irradiated area of the electron beam is adjusted while the reflected-electron imaging conditions for the reflected-electron image are sustained. Moreover, an amount-of-ultraviolet ray adjustment mechanism is controlled on the monitor so that an amount of the ultraviolet rays is adjusted while observing a reflected-electron image obtained during ultraviolet irradiation. | 12-25-2008 |
20090001267 | Charged particle beam apparatus and specimen inspection method - In a multi-charged-particle-beam apparatus, when an electric field and voltage on a surface of a specimen are varied according to characteristics of the specimen, a layout of plural primary beams on the surface of the specimen and a layout of plural secondary beams on each detector vary. Then, calibration is executed to adjust the primary beams on the surface of the specimen to an ideal layout corresponding to the variation of operating conditions including inspecting conditions such as an electric field on the surface and voltage applied to the specimen. The layout of the primary beams on the surface of the specimen is acquired as images displayed on a display of reference marks on the stage. Variance with an ideal state of the reference marks is measured based upon these images and is corrected by the adjustment of a primary electron optics system and others. | 01-01-2009 |
20090014651 | CHARGED PARTICLE BEAM EQUIPMENTS, AND CHARGED PARTICLE BEAM MICROSCOPE - In an electron microscope to which a phase retrieval method is applied, an image size determined by a pixel size p of a diffraction pattern, a camera length L, and a wavelength λ of an illumination beam is allowed to have a certain relation with an illumination area on a specimen. Further, a beam illumination area or a scanning area of a deflector when a magnified image is observed is set by an illumination adjustment system, so that an image size when the magnified image is used for the phase retrieval method is allowed to have a certain relation with the image size determined by the pixel size of the diffraction pattern, the camera length, and the wavelength of the illumination beam. Accordingly, the information of the diffraction pattern is substantially equal to an object image to be reconstructed. | 01-15-2009 |
20100065753 | CHARGED PARTICLE BEAM APPARATUS - With a multi-beam type charged particle beam apparatus, and a projection charged particle beam apparatus, in the case of off-axial aberration corrector, there is the need for preparing a multitude of multipoles, and power supply sources in numbers corresponding to the number of the multipoles need be prepared. In order to solve this problem as described, a charged particle beam apparatus is provided with at least one aberration corrector wherein the number of the multipoles required in the past is decreased by about a half by disposing an electrostatic mirror in an electron optical system. | 03-18-2010 |
20100133433 | ELECTRON BEAM APPARATUS - A plurality of primary beams are formed from a single electron source, the surface charge of a sample is controlled by at least one primary beam, and at the same time, the inspection of the sample is conducted using a primary beam other than this. Also, for an exposure area of the primary beam for surface charge control and an exposure area of the primary beam for the inspection, the surface electric field strength is set individually. Also, the current of the primary beam for surface charge control and the interval between the primary beam for surface charge control and the primary beam for inspection are controlled. | 06-03-2010 |
20110049344 | DIFFRACTION PATTERN CAPTURING METHOD AND CHARGED PARTICLE BEAM DEVICE - A charged particle beam microscope device of the present invention is configured such that in a diffraction pattern obtained by radiating a parallel charged particle beam onto a sample ( | 03-03-2011 |
20110068267 | Electron beam inspection method and electron beam inspection apparatus - An electron beam inspection apparatus images reflected electrons and cancels negative charging derived from electron-beam irradiation. Ultraviolet rays are irradiated and an irradiated area of ultraviolet rays is displayed as a photoelectron image. The photoelectron image and a reflected-electron image are displayed on a monitor while being superposed on each other, to easily grasp the positional relationship between the images and the difference in size between them. Specifically, the shape of the irradiated area of an electron beam includes the shape of the irradiated area of ultraviolet rays on a display screen. The intensity of the ultraviolet rays in the irradiated area of the electron beam is adjusted while the reflected-electron imaging conditions for the reflected-electron image are sustained. Moreover, an amount-of-ultraviolet ray adjustment mechanism is controlled on the monitor so that an amount of the ultraviolet rays is adjusted while observing a reflected-electron image obtained during ultraviolet irradiation. | 03-24-2011 |
20110139985 | CHARGED PARTICLE BEAM APPARATUS - A charged particle beam apparatus that can achieve both high defect-detection sensitivity and high inspection speed for a sample with various properties in a multi-beam type semiconductor inspection apparatus. The allocation of the primary beam on the sample is made changeable, and furthermore, the beam allocation for performing the inspection at the optimum inspection specifications and at high speed is selected based on the property of the sample. In addition, many optical parameters and apparatus parameters are optimized. Furthermore, the properties of the selected primary beam are measured and adjusted. | 06-16-2011 |
20110272576 | CHARGED PARTICLE BEAM APPLIED APPARATUS - Provided is a multi-beam type charged particle beam applied apparatus in an implementable configuration, capable of achieving both high detection accuracy of secondary charged particles and high speed of processing characteristically different specimens. An aperture array ( | 11-10-2011 |
20120061565 | CHARGED PARTICLE BEAM DEVICE AND SAMPLE OBSERVATION METHOD - Disclosed is a charged particle beam device, wherein multibeam secondary electron detectors ( | 03-15-2012 |
20130248731 | ELECTRON BEAM APPARATUS AND LENS ARRAY - There is provided both an electron beam apparatus and a lens array, capable of correcting a curvature of field aberration under various optical conditions. The electron beam apparatus comprises the lens array having a plurality of electrodes, and multiple openings are formed in the respective electrodes. An opening diameter distribution with respect to the respective opening diameters of the plural openings formed in the respective electrodes are individually set, and voltages applied to the respective electrodes are independently controlled to thereby independently adjust an image forming position of a reference beam, and a curvature of the lens array image surface. | 09-26-2013 |