The element was found using X-ray spectroscopy.
这种元素是利用X 射线光谱学发现的。
You know the assignment has to do with Spectroscopy, right?
你们知道作业是关于光谱学的,对吧?
Spectroscopy can reveal the composition of those touch-up layers too.
光谱学也可以揭示这些修饰层的组成。
This is a good example of how important spectroscopy is in astronomy.
这是一个很好的例子,说明了光谱学在天文学中有多么重要。
I'm interested in art and to me it's interesting how spectroscopy is used to analyze art.
我对艺术很感兴趣,也认为应用光谱学来分析艺术很有意思。
Now astronomy didn't really bloom into the science it is today until the development of spectroscopy.
直到光谱学发展,天文学才真正发展为今天的科学。
Spectroscopy has a very distinct advantage over previous methods of analyzing our works, because it's not invasive.
光谱学相对以前解析作品的方法有一个明显优势,即它不会对原作造成损害。
The simplest definition I can give you is that Spectroscopy is the study of the interaction between matter and light.
我能给你的最简单的定义是光谱学是研究物质和光之间相互作用的学科。
Spectroscopy is basically the study of spectra and spectral lines of light, and specifically for us, the light from stars.
光谱学基本上是一种研究光谱和光谱线的学科,特别对我们来说,是研究恒星发出的光。
You've got to find out what's in those pigments, learn their composition, and that requires lab work—detective work really—in a word, Spectroscopy.
你必须找出那些颜料里有什么,了解它们的组成,这需要实验室的工作——真正的探测性工作——也就是光谱学。
Now, Laser Spectroscopy, which is the focus of your assignment, works by measuring very precisely what parts of the spectrum are absorbed by different substances.
现在来说说激光光谱学,这是你们作业的重点,激光光谱学可以非常精确地测量光谱的哪些部分被不同物质吸收。
However, the amount of helium in the universe, as measured by spectroscopy, suggests that there are far more baryons in the universe than estimates based on galactic luminosity indicate.
然而,通过光谱学测量,宇宙中氦的数量表明,宇宙中重子的数量要比基于星系光度所估计的要多得多。
They had been using a relatively new technology called X-ray spectroscopy, and they were using this to examine an ore sample.
他们使用了一种相对较新的X 光技术来检测矿石样品。
Meanwhile, the paper introduces Near-Infrared Spectroscopy to the analysis of triploid Populus tomentosa for the first time.
同时,本文首次将近红外光谱技术引入三倍体毛白杨的分析中。
这就是光谱学。
So, let's start with talking about photoelectron spectroscopy.
那么,我们开始讲光电子能谱。
S This is s. S, according to spectroscopy, 0 means that l equals zero.
这就是s的意义,在光谱学中,表示l等于。
Alright, so we'll pick up with photoelectron spectroscopy on Wednesday.
好的我们周三将会讲解,光电子能谱的专题。
Spectroscopy is how you go and look at patterns, not just individual lines.
光谱学就是你怎样运行和看待一个图案的,而不是单独的线条。
Forty years ago, spectroscopy measurement results were given with six or seven digits at most.
四十年前,光谱学的测量结果最多能保持六到七位有效数字。
Now he and his collaborators use several methods, including mass spectroscopy and ultraviolet probes.
现在,他和他的同伴用了许多方法,包括质谱分析法以及紫外探测法来测量含氧量。
In terms of application, Fujita sees a great deal of usefulness, especially in terms of spectroscopy.
在应用方面,藤田看到了大量的实用性,特别是在光谱学方面。
Canadian scientists used X-ray spectroscopy to compare new mercury amalgams to those about 20 years old.
来自加拿大的科学家们使用了X射线光谱仪对崭新的汞合金填充物和那些用了20年的填充物进行了比对。
In fact, a device using "surface-enhanced Raman spectroscopy" can detect traces of less than one part per billion.
实际上,利用“表面增强拉曼光谱”的设备能够检测到十亿分之一的痕量物质。
Scientists in Germany used X-ray photoelectron spectroscopy to get a detailed image of the surface of a treated tooth.
德国的科学家利用X射线光电光谱得到了牙齿在氟化物处理后的表面细节图像。
And in the end, when it's at equilibrium, and you look and you'd make a measurement, right, you could do spectroscopy.
当他处于平衡状态的时候,你可以做测量,比方说做光谱分析。
Scientists in Germany used X-ray photoelectron spectroscopy to get a detailed image of the surface of a treated tooth.
德国科学家利用X射线光电子光谱法绘制出一个治疗过的牙齿表面的详细图像。
Channel stress is simulated by using mask-edge dislocation model and actual stress is also measured by Raman spectroscopy.
沟道应力的模拟方法则采用掩膜版边缘错位模型(mask - edge dislocation model),应力测量方面采用拉曼光谱法。
TiTech's systems—more than 1,000 of which are now installed worldwide—rely on spectroscopy to identify different materials.
目前,全球有1000多个垃圾处理系统使用了泰科体系,这种体系依赖光谱学来识别各种不同的材料。
And in the MRI and MR spectroscopy here, the prostate tumor activity is shown in red — you can see it diminishing after a year.
在这边的磁共振造影与光谱分析中,摄护腺肿瘤的活动以红色显示,你可以看到它在一年之后,显着的减少。
应用推荐