Abstract: A method and apparatus for preventing contamination of a substrate or a substrate surface, and particularly relates to prevention of contamination of raw materials, semi-finished products, base materials of products and substrate surface in a high-tech industry such as an in the production of semiconductors and liquid crystals. A gas coming into contact with a base material or substrate is purified by dust removing apparatus and adsorption and/or absorption apparatus so that the concentration of fine particles in the gas is below class 1,000 and a non-methane hydrocarbon concentration is below 0.2 ppm. Thereafter, the base material or the substrate surface is exposed to this gas.

Abstract: A network system has a first LAN, a second LAN, and a storage device for storing data accessible from the first LAN and the second LAN. A control apparatus controls accessibility of the data stored in the storage device from the first LAN and the second LAN. The control apparatus includes an access prevention device for preventing access from the first LAN to the second LAN and from the second LAN to the first LAN and a device for overriding a setting of the access prevention device to allow accessibility of the second LAN from the first LAN.

Abstract: A focused ion beam apparatus having two pieces of probers brought into contact with two points of a surface of a sample, a voltage source for applying a constant voltage between the two points with which the probers are brought into contact, and an ammeter for measuring a current flowing between the two points, in which a conductive film is formed to narrow a gap thereof between the two points by operating a deflection electrode and a gas gun and the current flowing between the two points is monitored, and when the current becomes a predetermined value, a focused charged particle beam irradiated to the surface of the sample is made OFF by the blanking electrode.

Abstract: An apparatus has a holder member (21) which holds a sample (3), and a removing beam source (13) which irradiates an inert ion beam onto a cross section (4) of the sample (3) held by a holder member (21) and removes a fracture layer on the cross section (4). Then, the removing beam source (13) is disposed on the holding end side of the sample (3) with respect to the normal L of the cross section (4) so that the irradiating direction of the inert ion beam is tilted at the tilt angle ? to the normal L with respect to the cross section (4).

Abstract: An dermatological agent for external use is disclosed which contains a chromanol glycoside represented by the following general formula (1) (wherein R1, R2, R3, and R4 which may be the same or different, each represent a hydrogen atom or a lower alkyl group, R5 represents a hydrogen atom, a lower alkyl group, or a lower acyl group, X represents a monosaccharic residue or an oligosaccharic residue optionally having the hydrogen atom of the hydroxyl group in the saccharic residue substituted with a lower alkyl group or a lower acyl group, n represents an integer in the range of 0-6, and m represents an integer in the range of 1-6). This is a novel dermatological agent for external use which excels in stability and percutaneous absorbency, manifests an effective action safely at a small application rate, and effectively prevents and cures the dermopathy.

Abstract: In a sample analysis method, positional coordinates of reference points on a surface of the sample are measured using a first device. Positional coordinates of an object on the surface of the sample to be analyzed are also measured using the first device. A sample piece containing on a surface thereof a preselected number of the reference points and the object is removed from the sample. The sample piece is then mounted on a second device different from the first device. The positional coordinates of the reference points on the surface of the sample piece are then measured using the second device. The positional coordinates of the object on the surface of the sample piece are then calculated using the positional coordinates of the reference points measured by the second device and the positional coordinates of the object measured by the first device. The object on the surface of the sample piece is then analyzed.

Abstract: A method and apparatus for preventing contamination of a substrate or a substrate surface, and particularly relates to prevention of contamination of raw materials, semi-finished products, base materials of products and substrate surface in a high-tech industry such as in the production of semiconductors and liquid crystals. A gas coming into contact with a base material or substrate is purified by dust removing means and adsorption and/or absorption means so that the concentration of fine particles in the gas is below class 1,000 and a non-methane hydrocarbon concentration is below 0.2 ppm. Thereafter, the base material or the substrate surface is exposed to this gas.

Abstract: The present invention aims to provide processes and equipments for manufacturing semiconductors, according to which oxidation of wafer surfaces can be controlled by simple means and contaminants promoting oxidation and contaminants inviting a decreased yield of wafers can also be totally controlled. To achieve the object above, the present invention provides a process for manufacturing a semiconductor, characterized in that a substrate is treated while exposing the surface of the substrate with a negative ion-enriched gas; and an equipment for manufacturing a semiconductor comprising a gas channel through which a gas to be treated is passed; a negative ion-enriched gas generator consisting of a gas cleaner located at an upstream part of said gas channel and a negative ion generator located at a downstream part thereof: and means for supplying the resulting negative ion-enriched gas to the surface of each substrate.

Abstract: A method and apparatus for preventing contamination of a substrate or a substrate surface, and particularly relates to prevention of contamination of raw materials, semi-finished products, base materials of products and substrate surface in a high-tech industry such as an in the production of semiconductors and liquid crystals. A gas coming into contact with a base material or substrate is purified by dust removing apparatus and adsorption and/or absorption apparatus so that the concentration of fine particles in the gas is below class 1,000 and a non-methane hydrocarbon concentration is below 0.2 ppm. Thereafter, the base material or the substrate surface is exposed to this gas.

Abstract: An apparatus for processing and observing a sample has a sample stage for supporting a sample at a preselected location thereof, a focused ion beam irradiation system for irradiating the sample with a focused ion beam along an optical axis to cut out a portion from the sample, and a side entry stage disposed over the sample stage and extending slantingly with respect to the optical axis of the focused ion beam irradiated by the focused ion beam irradiation system. The side entry stage has a microscope sample holder for picking up the cut-out sample portion directly from the preselected location of the sample and for supporting the sample portion. The microscope sample holder is configured to be removed from the side entry stage while supporting the sample portion and to be connected to an entry stage of a microscope device for observing the sample portion.

Abstract: An ion beam processing device has a sample holder for fixing a sample on which a section has been formed by irradiation of a specified focused ion beam from a surface side, and gas ion beam irradiation device for irradiating a gas ion beam to a region of the sample fixing using the holder member that contains the section to remove a damage layer on the section. The gas ion beam from the gas ion beam irradiation device irradiates the section from a rear surface side of the sample at a specified incident angle.

Abstract: The problem of the present invention is to provide a TEM sample equipped with an identifying function for easily specifying a detailed TEM sample and to provide a system for handling the management of information relating to the TEM sample using the TEM when making observations that is constructed with the FIB device manufacturing the sample. The TEM sample of the present invention is written with a mark encoding information specifying the sample at a specified location of a peripheral part. Information relating to the sample filed taking sample specifying information as an index is supplied to a TEM as associated matter. The sample working FIB device and observation TEM device of the present invention are provided with a function enabling writing of information relating to the sample and images to the file during operation which is then read out and utilized on a display.

Abstract: A tin coating is, for example, considered as a lead-free solder coating for a terminal attached to an electrochemical cell, but has presented a problem, as whiskers are likely to occur from the tin coating when the terminal is attached to the cell by laser welding. The formation of whiskers is due to the heat of laser welding and can be restrained by optimizing an undercoat layer of nickel or a nickel alloy.

Abstract: A system for surface or cross-sectional processing and observation and a method of surface or cross-sectional processing and observation using the system. The system has a unit for processing a sample surface to expose a target surface or cross section and a scanning probe microscope unit for observing the exposed surface or cross section. According to the system and method, a scanning probe microscope capable of providing different kinds of information is used to form at least one target surface or cross section in a sample surface and to observe the target surface or cross section. This offers the following advantages: a spatial resolution comparable to that of a transmission electron microscope can be achieved; and electric, magnetic, and mechanical information for a target sample plane, which couldn't be obtained by the known method, can be monitored in a shorter operating time.

Abstract: A method and apparatus for preventing contamination of a substrate or a substrate surface, and particularly relates to prevention of contamination of raw materials, semi-finished products, base materials of products and substrate surface in a high-tech industry such as in the production of semiconductors and liquid crystals. A gas coming into contact with a base material or substrate is purified by dust removing means and adsorption and/or absorption means so that the concentration of fine particles in the gas is below class 1,000 and a non-methane hydrocarbon concentration is below 0.2 ppm. Thereafter, the base material or the substrate surface is exposed to this gas.

Abstract: A sample manufacturing device comprises a sample stage to which an original sample is fixed, a focused ion beam irradiation system for irradiating a focused ion beam from a vertical direction to a specified place on the original sample, and a side entry stage, arranged diagonally above the sample stage, for inserting a sample stage for specified observation in a diagonal direction with respect to the vertical direction, and supporting the inserted sample holder for observation so as to be capable of movement in the diagonal direction. A test piece taken out from a specified place of the original sample is fixed to a tip section of the sample holder for specified observation supported on the side entry stage.

Abstract: An airplane fuel supply system includes a wing fuel tank that is formed from a wing tip fuel tank having a wing tip fuel pump; a central fuel tank having a central fuel pump; and a wing root fuel tank having a wing root fuel pump. Fuel movement from the wing tip fuel tank to the central fuel tank is allowed by a flapper valve, and fuel movement from the central fuel tank to the wing root fuel tank is allowed by another flapper valve. When the fuel delivery volume of the wing tip fuel pump is represented by Vt, the fuel delivery volume of the central fuel pump is represented by Vc, the fuel delivery volume of the wing root fuel pump is represented by Vr, and the fuel delivery volume from a collector tank to the engine is represented by Ve, the fuel delivery volumes Vt, Vc, Vr, and Ve are set so as to satisfy the relationships Vr>Ve, Vt+Vc>Ve, and Vc<Ve. This can minimize the size of the fuel pumps for supplying fuel from the airplane wing fuel tank to the engine.

Abstract: A method and apparatus for preventing contamination of a substrate or a substrate surface, and particularly relates to prevention of contamination of raw materials, semi-finished products, base materials of products and substrate surface in a high-tech industry such as in the production of semiconductors and liquid crystals. A gas coming into contact with a base material or substrate is purified by dust removing apparatus and adsorption and/or absorption apparatus so that the concentration of fine particles in the gas is below class 1,000 and a non-methane hydrocarbon concentration is below 0.2 ppm. Thereafter, the base material or the substrate surface is exposed to this gas.

Abstract: An airplane fuel supply system includes a wing fuel tank that is formed from a wing tip fuel tank having a wing tip fuel pump; a central fuel tank having a central fuel pump; and a wing root fuel tank having a wing root fuel pump. Fuel movement from the wing tip fuel tank to the central fuel tank is allowed by a flapper valve, and fuel movement from the central fuel tank to the wing root fuel tank is allowed by another flapper valve. When the fuel delivery volume of the wing tip fuel pump is represented by Vt, the fuel delivery volume of the central fuel pump is represented by Vc, the fuel delivery volume of the wing root fuel pump is represented by Vr, and the fuel delivery volume from a collector tank to the engine is represented by Ve, the fuel delivery volumes Vt, Vc, Vr, and Ve are set so as to satisfy the relationships Vr>Ve, Vt+Vc>Ve, and Vc<Ve. This can minimize the size of the fuel pumps for supplying fuel from the airplane wing fuel tank to the engine.

Abstract: A method and an apparatus for purifying a gas containing contaminants are disclosed. The gas is irradiated with an ultraviolet ray and/or a radiation ray so as to produce microparticles of the contaminants. The resultant microparticles of the contaminants are contacted with a photocatalyst. Then, the photocatalyst is irradiated with light so as to decompose the contaminants held in contact with the photocatalyst. Organic compounds, organosilicon compounds, basic gas and the like can be decomposed by the action of the photocatalyst. Even when these species are present at a low concentration, they can be concentrated locally by transforming into microparticles, and hence can be removed.