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- этимология
X-ray image amplifier - перевод на русский
медицина
усилитель рентгеновского изображения
![Model of the arrangement of water molecules in ice, revealing the [[hydrogen bond]]s (1) that hold the solid together.](https://commons.wikimedia.org/wiki/Special:FilePath/3D model hydrogen bonds in water.svg?width=200 "Model of the arrangement of water molecules in ice, revealing the [[hydrogen bond]]s (1) that hold the solid together.")
![The incoming beam (coming from upper left) causes each scatterer to re-radiate a small portion of its intensity as a spherical wave. If scatterers are arranged symmetrically with a separation ''d'', these spherical waves will be in sync (add constructively) only in directions where their path-length difference 2''d'' sin θ equals an integer multiple of the [[wavelength]] λ. In that case, part of the incoming beam is deflected by an angle 2θ, producing a ''reflection'' spot in the [[diffraction pattern]].](https://commons.wikimedia.org/wiki/Special:FilePath/Bragg diffraction 2.svg?width=200 "The incoming beam (coming from upper left) causes each scatterer to re-radiate a small portion of its intensity as a spherical wave. If scatterers are arranged symmetrically with a separation ''d'', these spherical waves will be in sync (add constructively) only in directions where their path-length difference 2''d'' sin θ equals an integer multiple of the [[wavelength]] λ. In that case, part of the incoming beam is deflected by an angle 2θ, producing a ''reflection'' spot in the [[diffraction pattern]].")
![tetrahedrally]] and held together by single [[covalent bond]]s, making it strong in all directions. By contrast, graphite is composed of stacked sheets. Within the sheet, the bonding is covalent and has hexagonal symmetry, but there are no covalent bonds between the sheets, making graphite easy to cleave into flakes.](https://commons.wikimedia.org/wiki/Special:FilePath/Diamond and graphite2.jpg?width=200 "tetrahedrally]] and held together by single [[covalent bond]]s, making it strong in all directions. By contrast, graphite is composed of stacked sheets. Within the sheet, the bonding is covalent and has hexagonal symmetry, but there are no covalent bonds between the sheets, making graphite easy to cleave into flakes.")
![backbone]] from its N-terminus to its C-terminus.](https://commons.wikimedia.org/wiki/Special:FilePath/Myoglobin.png?width=200 "backbone]] from its N-terminus to its C-terminus.")
![Rocknest]]", October 17, 2012).<ref name="NASA-20121030" />](https://commons.wikimedia.org/wiki/Special:FilePath/PIA16217-MarsCuriosityRover-1stXRayView-20121017.jpg?width=200 "Rocknest]]\", October 17, 2012).<ref name=\"NASA-20121030\" />")
![A protein crystal seen under a [[microscope]]. Crystals used in X-ray crystallography may be smaller than a millimeter across.](https://commons.wikimedia.org/wiki/Special:FilePath/Protein crystal.jpg?width=200 "A protein crystal seen under a [[microscope]]. Crystals used in X-ray crystallography may be smaller than a millimeter across.")
общая лексика
рентгеноструктурный анализ
строительное дело
рентгенографический дифракционный анализ (грунта)
Определение
Википедия
An X-ray image intensifier (XRII) is an image intensifier that converts X-rays into visible light at higher intensity than the more traditional fluorescent screens can. Such intensifiers are used in X-ray imaging systems (such as fluoroscopes) to allow low-intensity X-rays to be converted to a conveniently bright visible light output. The device contains a low absorbency/scatter input window, typically aluminum, input fluorescent screen, photocathode, electron optics, output fluorescent screen and output window. These parts are all mounted in a high vacuum environment within glass or, more recently, metal/ceramic. By its intensifying effect, It allows the viewer to more easily see the structure of the object being imaged than fluorescent screens alone, whose images are dim. The XRII requires lower absorbed doses due to more efficient conversion of X-ray quanta to visible light. This device was originally introduced in 1948.
