光编码细丝像光的射线,它拥有几何学语言形态。
The light-encoded filaments are like rays of light that hold a geometric form of language.
这个团队不是研究X光射线如何被不同的材料吸收,反而是关注X光射线如何转向或者当x光射线穿过不同物体时如何折射。
Instead of relying on how X-rays are absorbed by different materials, they have instead focused on how they are diverted or refracted as they pass through different substances.
医院的X光机工作原理是X光射线脉冲穿过人体在射线胶片上感光成像。
Hospital X-ray machines work by passing an X-ray pulse through a body onto radiographic film.
高能电子和正电子从一个内部的X射线环中向外运动,在不同形式的物质中标记出了一个冲击波,产生了一个膨胀的X射线光。
Energetic electrons and positrons (antielectrons) move out from an inner X-ray ring, which marks a shockwave between different forms of matter, to produce an extended X-ray glow.
现在,这项检测需要你躺下,同时一个特别的如手臂一样的X光射线装置来回在你身体上移动来检测不同部位骨头的厚度。
Right now, the test involves lying on your back while the arm of a special X-ray device moves over your body to measure the thickness of various bones.
他们也放弃使用任何矫正透镜,而是通过一个针孔发射X光射线,然后采集经过样品后的衍射光线。
They also abandoned using any corrective lenses, firing the X-ray pulse through a pinhole and then collecting the diffracted rays after they pass through the sample.
最后他们利用一款强大的计算机程序来重建这个反复通过X光射线扫描物体的3d图像。
They then used a powerful computer programme to rebuild a 3d image of the object scanned by rewinding the passage of the X-rays.
整个过程并不是特别有效率,而且还有副产品:一个庞大的能量团——无线电波,X射线和常规的光——高度照亮着整个区域。
The process is not entirely efficient, and there is a byproduct: an enormous amount of energy — radio waves, X-rays and regular light — hyper-illuminates the whole scene.
这一不寻常的X射线和光发射的组合使它成为一个显著的对象。
The combination of this unusual X-ray and optical emission makes this a remarkable object.
近年来,科学家们利用大量的粒子加速器或者同步加速器来产生更大的辐射剂量,从而不断地提升X光射线的能量。
In recent years, scientists have been scaling up the power of the X-ray, using massive particle accelerators or synchrotrons to deliver much larger radiation doses.
一道激光射线由或短或长的光脉冲组合而成,从而能在一个安全的距离高精度地辨别单个的分子。
A laser beam like the one pictured up top combines short and long pulses of light to identify individual molecules with a high degree of precision from a safe distance.
这一不寻常的X射线和光发射的组合使它成为一个显著的对象。
Thecombination of this unusual X-ray and optical emission makes this aremarkable object.
科学家已经证实一种精密的X光射线技术可以显示骨骼结构中细微变化。
Scientists have demonstrated a refined X-ray technique which can spot tiny variations in bone structures.
同时新生的真实粒子衰减,(在其他事物之中)发出光、X射线和伽马射线。
Meanwhile, the newly real particles decay, giving off (among other things) light, X-rays and gamma rays.
但是X光射线图像本身也有自己的问题,比如X光射线难于聚焦,甚至在使用矫正透镜的情况下也难于控制。
But X-ray imaging has its own problems, with X-rays difficult to focus or manipulate even with corrective lenses.
MartinDierolf联合德国与瑞士科学家团队所做的正是要让这种X光射线技术精益求精。
What Martin Dierolf and a team of scientists based in Germany and Switzerland have done is to refine these X-ray techniques.
为了产生蓝色的日光,我使用了金属射线日光系统和天空光。
To get the blue daylight, I used the Mental Ray day light System and a Sky light Portal.
为此就必须明确X射线光的精确持续性及强度。
For this it is essential to know the precise duration and temporal intensity distribution of the X-ray flashes.
讲述了X射线在医学上的应用,及几例X光机故障维修。
This article about X-ray in medical applications, and several cases of X-ray machine fault maintenance.
记录这种光可以使天文学家们将伽马射线跟踪到宇宙中的射线源。
Recording this light allows astronomers to trace the gamma rays back to their cosmic sources.
如骨等密度较高的组织能吸收更多的X射线,所以在X光片上显示出来的是较淡的区域。
Denser tissues, such as bones, absorb more X rays and show as lighter areas on X-ray film.
利用小角X光散射(SAXS)、广角X射线衍射(WAXD)及拉曼光谱等测试手段,研究了拉伸过程中UHMWPE纤维的结晶结构变化。
The change of the crystalline structure of UHMWPE fiber was studied by small angle X-ray scattering (SAXS) , wide angle X-ray diffraction ( WAXD) and Raman spectroscopy.
在医院和实验室,x光技术员离开辐射范围。使用镭的时候,铅制隔墙保护工作人员不接触射线。
In hospitals and laboratories, X-ray technicians stand out of the range of the radiation. When radium is used, lead shields protect workers from the rays.
提出了一种基于面阵CCD器件,采用光纤和光纤面板进行光耦合及传输的扇形束线阵扫描X射线新型探测器技术。
Optical coupling and transmission performing with optic fiber and fiber optic face plate, a new sector beam linear array scanning X-ray detector technique based on plane array CCD devices is proposed.
每幅图像,结合有趣的事实,棚上的X光检查的对象和X射线的过程本身的光。
Combined with each image are intriguing facts that shed light on both the X-rayed object and the X-ray process itself.
这也是为什么人们被鼓励在学校、工厂这类的大规模的放射线照相术中使用X光技术。
This is why people are encouraged to have X-rays taken in the mass radiography units which go to schools and factories and such places.
本文考虑了嵌镶晶体中经各级衍射的X射线的偏极化状态的变化,对次级消光效应作了较严密的处理。
Account is taken of the change in the state of polarization of multiply diffracted X-rays in Mosaic crystals, and a more rigorous treatment of secondary extinction is given.
本文以应用较多的光测技术为主,综述了细观力学测量中光、声、磁、射线等试验技术。
In this paper the measurement methods based on optics, acoustics, magnetics and radiology are mentioned for research of mesomechanics.
本文以应用较多的光测技术为主,综述了细观力学测量中光、声、磁、射线等试验技术。
In this paper the measurement methods based on optics, acoustics, magnetics and radiology are mentioned for research of mesomechanics.
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