Abstract: A through-slit is provided in a semiconductor wafer. A first virtual cutting line defines a chip portion including an energy ray sensitive region as viewed from a direction perpendicular to a first main surface. The shortest distance from a second virtual cutting line to the edge of a second semiconductor region is smaller than the shortest distance from the first virtual cutting line to the edge of the second semiconductor region. The through-slit penetrates through the semiconductor wafer in the thickness direction along the second virtual cutting line. A side surface to which a first semiconductor region is exposed is formed in the chip portion by providing the through-slit. A fourth semiconductor region of a first conductivity type is provided on the side surface side of the chip portion by adding impurities to the side surface to which the first semiconductor region is exposed.

Abstract: A through-slit is provided in a semiconductor wafer. A first virtual cutting line defines a chip portion including an energy ray sensitive region as viewed from a direction perpendicular to a first main surface. The shortest distance from a second virtual cutting line to the edge of a second semiconductor region is smaller than the shortest distance from the first virtual cutting line to the edge of the second semiconductor region. The through-slit penetrates through the semiconductor wafer in the thickness direction along the second virtual cutting line. A side surface to which a first semiconductor region is exposed is formed in the chip portion by providing the through-slit. A fourth semiconductor region of a first conductivity type is provided on the side surface side of the chip portion by adding impurities to the side surface to which the first semiconductor region is exposed.

Abstract: A radiation measuring apparatus (20) includes a scatterer detector (10A), an absorber detector (10B) and a processing unit (12). Pixel electrodes (2) of the scatterer detector (10A) and the absorber detector (10B) are arranged such that a distance between centers of two neighbor pixel electrodes (2) is smaller than a mean free path of a recoil electron generated in the Compton scattering of an electromagnetic radiation. The processing unit (12) specifies and incidence direction of the electromagnetic radiation based on a recoiling direction to which the recoil electron recoils. In this way, an electron tracking-type Compton camera is realized which confines the incidence direction of the electromagnetic radiation by using the recoiling direction of the recoil electron in a Compton camera using a semiconductor detector.

Abstract: A radiation measuring apparatus (20) includes a scatterer detector (10A), an absorber detector (10B) and a processing unit (12). Pixel electrodes (2) of the scatterer detector (10A) and the absorber detector (10B) are arranged such that a distance between centers of two neighbor pixel electrodes (2) is smaller than a mean free path of a recoil electron generated in the Compton scattering of an electromagnetic radiation. The processing unit (12) specifies and incidence direction of the electromagnetic radiation based on a recoiling direction to which the recoil electron recoils. In this way, an electron tracking-type Compton camera is realized which confines the incidence direction of the electromagnetic radiation by using the recoiling direction of the recoil electron in a Compton camera using a semiconductor detector.

Abstract: A reinforced sensor with an optical fiber woven into a fabric, comprising a fabric formed in a manner that a weft yarn is woven thereinto in a direction substantially perpendicular to a warp yarn, wherein an optical fiber is included in at least either one of fibers of the warp yarn and the weft yarn. The optical fiber may function as a FBG sensor.

Abstract: A method for easily decomposing viscous, solidified spilled fuel oil or crude oil containing sea water and other disposal inhibiting substances. Titanium dioxide particles are added to viscous spilled fuel oil recovered in drums in a weight ratio of at least 0.2 to 1 times. Fuel oil is specifically adsorbed by the adsorbent and the mixture can be suspended in water. The suspension is filtered by a coarse filter to remove substances interfering with disposal by the oil. This filtrate is passed through a high performance filter (of sufficiently fine mesh to retain the adsorbent) so that the adsorbent is recovered, and sea water and other substances are discarded.