原子光谱显示元素样品中所有的电磁辐射。
An atomic spectrum shows all electromagnetic emissions from a sample of the element.
于是问题升级了:它是否能够令人满意地解释氢原子光谱?
The question then arose, would it satisfactorily explain the spectrum of hydrogen?
分析了WPL型棱镜摄谱仪的结构及拍摄的钠原子光谱的特征。
The structure of prism spectrometer modeled WPL and the spectrum characteristics of sodium atom are analyzed.
预计将来,原子光谱技术将在这些新的应用领域发挥更大的作用。
In the future, we expect that atomic spectrum analysis technology will play a bigger role in these new applications.
泡利是在量子力学出现以前,根据原子光谱的数据导出这个原理的。
Pauli deduced the principle from spectroscopic data prior to the advent of quantum mechanics.
原子光谱分析法是众多的材料现代分析方法中最为常见和实用的方法之一。
Atomic spectrum analysis method is one of the most familiar and practical methods in numerous modern analysis methods of materials.
利用回归分析方法,对改进的小型摄谱仪测氢原子光谱实验的数据进行了处理。
The regression analysis method is used to deal with the data of the hydrogen atom spectroscopy experiment measured by small spectrograph.
利用回归分析方法,对改进的小型摄谱仪测氢原子光谱实验的数据进行了处理。
With regression analysis, a mathematics model of both simple linear and multiple linear regressions were established.
薛定谔还是太胆小地放弃了他一开始得到的那个不符合氢原子光谱的相对论性方程。
Schrodinger had really been too timid in giving up his first relativistic equation which was not in agreement with the observations of the hydrogen spectrum.
我们可以在宇宙里遥远的地方测量阿尔法常数,从而通过研究这些原子光谱线回到过去。
And alpha is something that we can measure at distant places in the universe and thereby back in time by looking at these atomic spectral lines.
本文介绍了如何利用折射率的洛伦茨色散关系拟合氢原子光谱实验的定标曲线的方法。
This article demonstrates the method of simulating the calibration curve of hydrogen atomic spectrum using the Lorentz dispersion relation.
本文从理论上探讨了人们对氢原子光谱的认识过程,由此提出了现有实验中存在的问题。
A discussion is made on the understanding process of hydrogen atom spectrum and problems existing in the experiment are put forward.
原子光谱数据是研究原子结构的重要参数,氢及类氢离子是原子物理和量子力学研究的理想体系。
Atomic spectrum data are important parameters to research atomic structure, hydrogen and hydrogen-like ions are idea system to study atomic physics and quantum mechanics.
提高热原子光谱的分辨率可以有许多方法,如饱和吸收光谱技术、双光子光谱的消多普勒技术等。
The high resolution spectrum can be obtained through many methods, such as saturated absorption spectroscopy, Doppler free methods of two-photon spectroscopy, and etc.
他们在春天说,他们希望产生一束反氢激光制造出原子光谱的初步测量器以便它能与常态的氢相比较。
They say that in the spring, they hope to train a laser on the antihydrogen to make a preliminary measurement of the atom's spectrum so that it can be compared to regular hydrogen.
本文首次利用激光显微拉曼光谱、原子光谱和偏光显微镜等方法,对云南武定的恐龙化石进行了分析研究。
Selected ancient Dinosaur fossils (about a hundred million ago) from Wuding, Yunnan, pilot were studied by micro-Raman spectroscopy, atomic emissive spectrum and polarization microscopic analysis.
光谱强度是量度光谱的重要宏观物理量,研究氢原子光谱相对强度的分布可以加深对量子跃迁几率的认识。
The understanding of quantum transition can be enhanced through studying the distribution of the relative intensity of the hydrogen spectrum.
本文对高激发态原子的二次蔡曼效应进行了讨论,并着重分析了类氢原子光谱计及二次蔡曼效应的磁场条件。
This paper discuss the QZE of atoms for highly excited states, particularly analyse the relation between Spectra of hydrogen-like atoms and magnetic field under consideration of the QZE.
原子光谱中,同位素位移是少数几个能够将原子物理学和原子核物理学这两个不同的物理学分支联系起来的课题之一。
In atomic spectroscopy, the subject of isotope shifts is one of the few problems that links atomic and nuclear physics.
详细介绍了氢化物发生的反应体系和氢化反应的两种机理,并讨论了氢化物发生法在原子光谱中的应用现状和发展趋势。
The reaction systems of hydride generation and its mechanisms are described in detail. Its application and future development in atomic spectrometry are also discussed.
在玻尔理论基础上 ,以氢原子能级和氢原子光谱为主线 ,探讨了狄拉克理论、兰姆移位、氢原子光谱的超精细结构理论对氢原子理论的修正。
We advance a way to explore extra dimensions by calculating the change in hydrogen Lamb shift coursed by two extra dimensions, which gives theoretical basises for future experiments.
我们已经有非常精确的氢原子光谱,如果也可以有相同精确度的反氢原子光谱,那么比较这两者的光谱,可使稳定粒子现有的CPT界限大幅扩张。
If the same precision could be achieved with antihydrogen, a comparison of the two spectra would take physics well beyond the present CPT frontier for stable particles.
我们已经有非常精确的氢原子光谱,如果也可以有相同精确度的反氢原子光谱,那么比较这两者的光谱,可使稳定粒子现有的CPT界限大幅扩张。
If the same precision could be achieved with antihydrogen, a comparison of the two spectra would take physics well beyond the present CPT frontier for stable particles.
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