Abstract: A high power stripe-geometry heterojunction laser diode device is provided which may be employed in a radar system designed to measure the distance to a target. The laser diode device has an electric circuit path extending from a first electrode connected to a voltage source to a second electrode connected to ground and features addition of a resistance of 1 m&OHgr; or more to the electric circuit path to provide uniform current distribution in an active layer for emitting a high density laser beam.

Abstract: A sensor portion of an integrated photo sensor is composed of a silicon substrate, a photo diode and a signal processing element which are provided on the silicon substrate separately from each other. A shading film is provided on a surface region of the substrate except a region above the photo diode, and an intermediate insulating film made of silicon oxide is provided between the silicon substrate and the shading film. The intermediate insulating film includes a part extending on a light-receiving region of the photo diode, and the part is covered with light transmittable gel having a refractive index approximately equal to that of the intermediate insulating film.

Abstract: A semiconductor sensor having a thin-film structure body, in which thin-film structure is prevented from bending due to the internal stress distribution in the thickness direction, is disclosed. A silicon-oxide film is formed as a sacrificial layer on a silicon substrate, and a polycrystalline-silicon thin film is formed on the silicon-oxide film. Thereafter, phosphorus (P) is ion-implanted in the surface of the polycrystalline-silicon thin film, and thereby the surface state of the polycrystalline-silicon thin film is modified. A portion of distribution of stress existing in the thickness direction of the polycrystalline-silicon thin film is changed by this modification, and stress distribution is adjusted. By removal of the silicon-oxide film, a movable member of the polycrystalline-silicon thin film is disposed above the silicon substrate with a gap interposed therebetween.

Abstract: A polysilicon thin film is formed on a silicon substrate by LPCVD technique. At this time, by a performing film formation at a low temperature of approximately 620.degree. C., for example, an irregularities portion is formed on the surface thereof. A silicon oxide film that serves as a sacrificial layer is formed thereon and, on this sacrificial layer, a polysilicon thin film that serves as a movable portion forming thin film is formed. Then, the silicon oxide film beneath this polysilicon thin film is removed by wet etching to thereby form a movable portion. As a result, the movable portion of a beam structure that is composed of the thin film is disposed over the silicon substrate at a prescribed distance therefrom. Although an etchant-replacing liquid enters between the movable portion and the substrate whereby the movable portion is attracted toward the substrate, the movable portion is prevented from adhering to the substrate by means of the irregularities portion.

Abstract: Device including a strain generating portion supported at least at one end on a substrate and formed in a displaceable manner with respect to the substrate in a cavity of the substrate. A semiconductor strain sensing element, which is disposed at the strain generating portion, detects the amount of strain of the strain generating portion. A support is disposed at a connection point between the strain generating portion and the substrate so as to reinforce the connection point.

Abstract: A micro machining apparatus forms a high-aspect structure having an optional depth in a workpiece at low cost. The apparatus applies high-frequency electric power to the workpiece and a machining electrode, to form a plasma zone in the vicinity of the leading end of the machining electrode. The apparatus guides a reactive gas into the plasma zone to activate the gas. The activated gas is adsorbed by the surface of the workpiece that faces the leading end of the machining electrode. The adsorbed gas reacts with the material of the workpiece and locally etches off the surface of the workpiece. A feed mechanism of the apparatus feeds the machining electrode toward the workpiece according to the progress of the etching, thereby forming a trench in the workpiece.

Abstract: A semiconductor pressure sensor of this invention is intended to provide a semiconductor pressure sensor having an excellent electrical isolation between the supporting means of the semiconductor pressure sensor and the semiconductor substrate, the semiconductor pressure sensor basically comprising a semiconductor substrate having a first semiconductor region in which; at least a semiconductor device is formed, a second semiconductor region and an isolated layer buried between the first and second semiconductor regions, a cavity provided in the second semiconductor region, the opening thereof existing on the mail surface of the second semiconductor region and a strain detecting portion consisting of the semiconductor device and provided in the first semiconductor region opposite to the cavity.

Abstract: A semiconductor sensor for an accelerometer including a beam portion, consisting of a thin beam portion and a thick beam portion and supported by a solid member through the end of the thin beam portion, and a stopper portion provided at a position on an imaginary line along which a center of gravity of the thick beam portion moves. These components are integrally formed in a silicon substrate. Excessive displacement of the beam portion when excessive acceleration is applied is effectively suppressed by the stopper portion, and breakage of the thin beam portion due to excessive acceleration can be avoided.

Abstract: A structure of a nuclear fusion reactor having a vacuum vessel in which hydrogen isotope plasma is enclosed and a confining magnetic field generating coil for confining said plasma at a predetermined position in said vacuum vessel. It comprises a low tritium-permeable layer having lower tritium-permeability than that of a cooling metal base for forming a refrigerant passage for cooling the vacuum vessel on at least the surface adjacent to said plasma enclosed and a heat resistant and insulating fire member of the level higher than that of said cooling metal base for thermally shielding said low tritium-permeable layer from said plasma or corpuscular rays is formed on the low tritium-permeable layer. The similar processings are applied to the cooling metal base for forming the refrigerant passage for cooling a divertor disposed in the vacuum vessel and for neutralizing ionized corpuscles so as to exhaust them.

Abstract: A semiconductor pressure sensor of this invention is intended to provide a semiconductor pressure sensor having an excellent electrical isolation between the supporting means of the semiconductor pressure sensor and the semiconductor substrate, the semiconductor pressure sensor basically comprising a semiconductor substrate having a first semiconductor region in which at least a semiconductor device is formed, a second semiconductor region and an isolated layer buried between the first and second semiconductor regions, a cavity provided in the second semiconductor region, the opening thereof existing on the main surface of the second semiconductor region and a strain detecting portion consisting of the semiconductor device and provided in the first semiconductor region opposite to the cavity.

Abstract: A semiconductor pressure sensor of this invention is intended to provide a semiconductor pressure sensor having an excellent electrical isolation between the supporting means of the semiconductor pressure sensor and the semiconductor substrate, the semiconductor pressure sensor basically comprising a semiconductor substrate having a first semiconductor region in which at least a semiconductor device is formed, a second semiconductor region and an isolated layer buried between the first and second semiconductor regions, a cavity provided in the second semiconductor region, the opening thereof existing on the main surface of the second semiconductor region and a strain detecting portion consisting of the semiconductor device and provided in the first semiconductor region opposite to the cavity.