摘要:
An electronic cassette has a top plate, an anisotropic heat transfer plate, a detection panel, and a scintillator disposed in this order from an X-ray irradiation side. The scintillator converts X-rays transmitted through the top plate, the anisotropic heat transfer plate, and the detection panel into visible light. The detection panel performs photoelectric conversion of the visible light. The anisotropic heat transfer plate is composed of a lamination of first prepregs in which all carbon fibers are oriented in a heat flow direction. The top plate is composed of an alternate lamination of the first prepregs and second prepregs that have carbon fibers oriented in a signal line direction. Body heat of a patient is transferred to the top plate, and is transferred in the heat flow direction in the anisotropic heat transfer plate, and then is released from a housing through heat absorbing members.
摘要:
An electronic cassette has a top plate, an anisotropic heat transfer plate, a detection panel, and a scintillator disposed in this order from an X-ray irradiation side. The scintillator converts X-rays transmitted through the top plate, the anisotropic heat transfer plate, and the detection panel into visible light. The detection panel performs photoelectric conversion of the visible light. The anisotropic heat transfer plate is composed of a lamination of first prepregs in which all carbon fibers are oriented in a heat flow direction. The top plate is composed of an alternate lamination of the first prepregs and second prepregs that have carbon fibers oriented in a signal line direction. Body heat of a patient is transferred to the top plate, and is transferred in the heat flow direction in the anisotropic heat transfer plate, and then is released from a housing through heat absorbing members.
摘要:
There is provided a radiographic imaging device including: an imaging panel at which sensor portions, that detect radiation or light converted from radiation, are formed at a detection region, and that captures a radiographic image expressed by radiation or light converted from radiation; a light illuminating section at which light-emitting portions, that can individually illuminate light for erasing residual images, are provided per sectional region obtained by dividing the detection region into the sectional regions; a storage section that stores imaging actual results information that expresses past actual results of imaging carried out by the imaging panel; and a control section that, in accordance with at least one of actual results of imaging and imaging conditions, controls absence/presence of illumination of, light amount of, and illumination time period of light from the respective light-emitting portions of the light illuminating section.
摘要:
An organic electroluminescent element including a pair of electrodes and one or more organic compound layers including at least one light-emitting layer disposed between the pair of electrodes, wherein the at least one light-emitting layer contains at least one luminescent dopant and a plurality of host compounds. The ionization potential of the dopant is Ip(D), the minimum value out of the ionization potentials of the plurality of host compounds is Ip(H)min, and ΔIp is defined by ΔIp=Ip(D)−Ip(H)min and satisfies a relationship of ΔIp>0 eV. The electron affinity of the dopant is Ea(D), the maximum value out of the electron affinities of the plurality of host compounds is Ea(H)max, and ΔEa is defined by ΔEa=EA(H)max−Ea(D) and satisfies a relationship of ΔEa>0 eV.
摘要翻译:一种有机电致发光元件,包括一对电极和一个或多个有机化合物层,所述有机化合物层包括设置在所述一对电极之间的至少一个发光层,其中所述至少一个发光层含有至少一种发光掺杂剂和多个 主体化合物。 掺杂剂的电离电位为Ip(D),多个主体化合物的电离电位的最小值为Ip(H)min,&Dgr; Ip由&Dgr; Ip = Ip(D)-Ip (H)min,满足&Dgr; Ip> 0eV的关系。 掺杂剂的电子亲和力为Ea(D),多个主体化合物的电子亲和力的最大值为Ea(H)max,&Dgr; Ea由&Dgr; Ea = EA(H)max- Ea(D),并且满足&Dgr; Ea> 0eV的关系。
摘要:
The present invention provides an X-ray detecting element that can obtain radiation images by X-rays of different energies by irradiation of X-rays a single time, without positional offset arising. A first scintillator is provided at an outer side of a sensor portion and a sensor portion of one surface side of a substrate. A second scintillator is provided at another surface side of the substrate. X-rays that are irradiated from the one surface side or the other surface side of the substrate are converted into light at the first and second scintillators. The sensor portion detects light that is illuminated from the first scintillator of the one surface side, and the sensor portion detects light that is illuminated from the second scintillator of the other surface side of the substrate.
摘要:
A voltage applying electrode, to which a voltage is to be applied, a semiconductor layer, which is capable of generating electric charges when radiation is irradiated to the semiconductor layer, and an electrode for detecting an electric signal in accordance with a radiation dose are overlaid one upon another. A hole injection blocking layer is located between the voltage applying electrode and the semiconductor layer. The hole injection blocking layer contains an alloy of SbxS100-x, where x represents a number satisfying the condition of 41≦x≦60.
摘要翻译:施加电压的电压施加电极,当辐射照射到半导体层时能够产生电荷的半导体层和用于根据辐射剂量检测电信号的电极被覆盖 一个接一个 空穴注入阻挡层位于电压施加电极和半导体层之间。 空穴注入阻挡层含有SbxS100-x的合金,其中x表示满足条件41 <= x <= 60的数。
摘要:
The invention provides a photothermographic material containing a tabular photosensitive silver halide having an average silver iodide content of 40 mol % or higher, 50% or more of a total projected area of the photosensitive silver halide being occupied by tabular grains having an aspect ratio of 2 or more, the photosensitive silver halide grains having a mean equivalent spherical diameter of from 0.2 μm to 5 μm and a variation coefficient of an equivalent spherical diameter distribution of 30% or less. Further, a method for preparing the photosensitive silver halide used in the photothermographic material is characterized in that grains are formed in the presence of at least one selected from a silver halide solvent and an amino group-modified gelatin. A high-sensitivity photothermographic material exhibiting a low fog and a high optical density is provided.
摘要:
An organic electroluminescent element including one or more organic compound layers including at least one luminescent layer between an anode and a cathode, wherein the luminescent layer includes at least two host compounds and at least two phosphorescent materials, and the phosphorescent materials include a phosphorescent material (D1) that satisfies at least one of the following conditions: (a) when the ionization potential of the phosphorescent material (D1) is defined as Ip(D1) and the minimum value out of the ionization potentials of the at least two host compounds as Ip(H)min, ΔIp1 as defined by ΔIp1=Ip(D1)−Ip(H)min satisfies ΔIp1
摘要:
A radiological imaging device has a panel section which houses radiation conversion panels for converting radiation to a radiological image, and a control section which is disposed on the panel section and which controls the radiation conversion panels. The control section is thicker than the panel section, or protrudes from the panel section.
摘要:
A photoelectric conversion element is provided and includes: a pair of electrodes; a photoelectric conversion layer between the pair of electrodes; and a charge-blocking layer between one of the pair of the electrodes and the photoelectric conversion layer. The charge-blocking layer is capable of suppressing injection of a charge from the one of the pair of electrodes into the photoelectric conversion layer upon application of a voltage across the pair of electrodes, and the charge-blocking layer contains an insulating material and an electrically conductive material.