Abstract: A signal processing unit (21) of a charged particle microscope calculates a degradation function (H (s)) of an image, on the basis of detection signals (11) obtained by scanning a charged particle beam (2) at two types of scanning speeds, a scanning speed within the bandwidths of a detector (12) and an amplifying circuit at a subsequent stage of the detector, and another scanning speed exceeding the upper limit of the bandwidths. Then, the signal processing unit creates a one-dimensional correction filter for recovering image quality, from an inverse function (H?1 (s)) of the degradation function, and applies the one-dimensional correction filter to the detection signal recorded at the scanning speed exceeding the upper limit of the bandwidths of the detector and the amplifying circuit at a subsequent stage of the detector, or to a two-dimensional image based on the detection signal.

Abstract: An electron microscope according to the present invention includes: a backscattered electron detector provided with a backscattered electron detecting element (9); a low-vacuum secondary electron detector provided with a bias electrode (11) and a specimen stage (12); and a signal switch (14) that switches signals detected by the detectors. Optimal observation conditions are stored in an observation condition memory (20) for each of the detectors. A CPU (19) calls observation conditions stored in the observation condition memory (20) on the basis of the switching of the detectors, and sets conditions of the electron microscope to the called observation conditions. An image processing device (22) converts a plurality of the detected signals obtained on the basis of the switching of the detectors into two-dimensional image signals and evaluates the qualities of images of the two-dimensional image signals.

Abstract: A charged particle beam device of the present invention has a signal processing function of acquiring a secondary signal obtained when a charged particle beam is caused to scan at a low speed not subjected to a band limitation of an electrical signal path, and a secondary signal obtained when a charged particle beam is caused to scan at a high speed subjected to the band limitation of the electrical signal path, calculating a degradation function (H?1(s)) between the plurality of secondary signals, and using an inverse function thereof as a correction filter; and a function of updating a parameter of the correction filter to an optimal value as needed or at given timing. Accordingly, the charged particle beam device can perform optimum image restoration even when a detector or an amplifier circuit that constitutes the electrical signal path degrades with time.

Abstract: A charged particle beam device of the present invention has a signal processing function of acquiring a secondary signal obtained when a charged particle beam is caused to scan at a low speed not subjected to a band limitation of an electrical signal path, and a secondary signal obtained when a charged particle beam is caused to scan at a high speed subjected to the band limitation of the electrical signal path, calculating a degradation function (H?1(s)) between the plurality of secondary signals, and using an inverse function thereof as a correction filter; and a function of updating a parameter of the correction filter to an optimal value as needed or at given timing. Accordingly, the charged particle beam device can perform optimum image restoration even when a detector or an amplifier circuit that constitutes the electrical signal path degrades with time.

Abstract: A signal processing unit (21) of a charged particle microscope calculates a degradation function (H (s)) of an image, on the basis of detection signals (11) obtained by scanning a charged particle beam (2) at two types of scanning speeds, a scanning speed within the bandwidths of a detector (12) and an amplifying circuit at a subsequent stage of the detector, and another scanning speed exceeding the upper limit of the bandwidths. Then, the signal processing unit creates a one-dimensional correction filter for recovering image quality, from an inverse function (H?1 (s)) of the degradation function, and applies the one-dimensional correction filter to the detection signal recorded at the scanning speed exceeding the upper limit of the bandwidths of the detector and the amplifying circuit at a subsequent stage of the detector, or to a two-dimensional image based on the detection signal.

Abstract: An electron microscope according to the present invention includes: a backscattered electron detector provided with a backscattered electron detecting element (9); a low-vacuum secondary electron detector provided with a bias electrode (11) and a specimen stage (12); and a signal switch (14) that switches signals detected by the detectors. Optimal observation conditions are stored in an observation condition memory (20) for each of the detectors. A CPU (19) calls observation conditions stored in the observation condition memory (20) on the basis of the switching of the detectors, and sets conditions of the electron microscope to the called observation conditions. An image processing device (22) converts a plurality of the detected signals obtained on the basis of the switching of the detectors into two-dimensional image signals and evaluates the qualities of images of the two-dimensional image signals.

Abstract: In three-dimensional shape measurement, a backscattered electron detection signal and selection signal generator in a control section controls, by selection signal, a signal switching section and a frame memory so that: detection signals from respective semiconductor elements are sequentially switched in the signal switching section in synchronization with a scanning frame of an electron beam on a sample; and the detection signals from the respective semiconductor elements can be sequentially recorded in recording addresses in the frame memory which correspond to the respective semiconductor elements. After four electron beam scanning sessions, each image data for three-dimensional shape measurement is recorded in the frame memory, and processed in a computing processing section for three-dimensional shape measurement, and the result can be displayed in a display section.

Abstract: In three-dimensional shape measurement, a backscattered electron detection signal and selection signal generator in a control section controls, by selection signal, a signal switching section and a frame memory so that: detection signals from respective semiconductor elements are sequentially switched in the signal switching section in synchronization with a scanning frame of an electron beam on a sample; and the detection signals from the respective semiconductor elements can be sequentially recorded in recording addresses in the frame memory which correspond to the respective semiconductor elements. After four electron beam scanning sessions, each image data for three-dimensional shape measurement is recorded in the frame memory, and processed in a computing processing section for three-dimensional shape measurement, and the result can be displayed in a display section.

Abstract: A mold box changing apparatus for a concrete block molding machine has a roller type mold box feed line, a split female/male thread type attaching/detaching device constituting a tightening mechanism has a lockable rotary support shaft actuated by a cylinder. The tightening mechanism includes a rotary support shaft capable of rotation by a cylinder pierced into a plunger extending downward from the press. A male thread portion has a split engagement groove disposed at a lower end of the rotary support shaft. The male thread portion has an end face in the form of a first inclination surface cam. A female thread portion has a split engagement groove and provided with a second inclination surface cam corresponding to the first inclination surface cam of said male thread portion such that rotation of said rotary support shaft causes the first inclination surface cam to be contacted, under pressure, with the second inclination surface cam.

Abstract: A method of forming a colored coating film on a cross-linked polyethylene comprises coating a coloring paint prepared by blending a prepolymer having acryloyl and/or methacryloyl groups in the molecule, a monomer and/or oligmer having the above-mentioned groups in the molecule and a pigment on the surface of cross-linked polyethylene and then curing the paint under the irradiation of UV-rays.

Abstract: A highly reliable device for stopping the operation of a flywheel apparatus for storing electrical energy in the event of interruption of power supply includes a thrust plate 11 connected to the rotatory part of the apparatus, and having a lower surface defining a thrust bearing surface. A pressure receiving surface 26 facing the lower surface of the thrust plate, and defining a thrust bearing surface is provided with a plurality of radially extending grooves 27 each having at least one sidewall which defines an upwardly inclined land 28 as viewed in the direction of rotation of the rotatory part. Provided below the pressure receiving surface 26 is a cooling fluid passage 33 connected to an electromagnetic valve 35 adapted to open upon interruption of power supply to allow a cooling fluid to flow into the passage 33. The device further includes means for maintaining a hydraulic fluid between the thrust bearing surfaces during interruption of power supply.