1) Atomic map
原子图谱
3) atomic spectrometry
原子光谱
1.
The recent advance on valence state analysis of chromium by flow injection-atomic spectrometry;
流动注射-原子光谱法分析铬价态研究进展
2.
This paper covered with the determination of arsenic by atomic spectrometry in the last few years,including atomic absorption spectrometry(AAS),atomic fluorescence spectrometry(AFS),inductively coupled plasma atomic emission spectrometry(.
文章阐述了近几年来国内外砷的原子光谱分析方法及其进展,并比较了各种原子光谱分析方法,包括原子吸收法、原子荧光法、ICP-AES法。
4) atomic spectrum
原子光谱
1.
Taking petroleum sodium sulfonate as sodium organometallic compound,the lower freezing point base oil as the prepared oil,the organo-sodium standard substance used for atomic spectrum was developed and calibrated with the one made by America CONSTANT Corporation.
介绍原子光谱用有机钠标准物质的研制。
2.
The development of organo-copper standard substance used in atomic spectrum is introduced.
介绍原子光谱用有机铜标准物质的研制 ,所研制的有机铜标准物质稳定可靠 ,可以满足实际测定的需要。
3.
At the same time,it deeply discusses the effects on transition in atomic spectrum from spectrum fine structure,transition probabili- ty,spectrum outline and spectrum intensity in order understand the problem of transition of atomic spectrum to better.
本文以氢原子为例,阐述了玻尔的氢原子理论及引入相对论效应及量子理论后氢原子光谱的精细结构和超精细结构。
5) atomic spectroscopy
原子光谱
1.
The principle, classification and characteristics of charge transfer device detectors are introduced, and their applications in anaytical chemistry, such as molecular spec-troscopy, atomic spectroscopy, Raman spectroscopy, separation and image analysis, have been reviewed with 74 references.
本文介绍了电荷转移器件检测器的原理、类型和特征,评述了它们在分子光谱、原子光谱、拉曼光谱、分离科学、图象分析等分析化学领域中的应用研究概况。
2.
The high temperature measurement method based on the theory of atomic spectroscopy, that is multi-spectrum average method and multi-spectrum slope method, has great significance.
因此,基于原子光谱理论的高温测量方法,即多谱线平均值法和多谱线斜率法很有研究价值。
6) Atomic spectral terms
原子谱项
补充资料:电热原子化原子吸收光谱法
分子式:
CAS号:
性质:又称高温炉原子吸收光谱法。利用低压大电流将石墨管、石墨棒、金属丝或金属舟加热到2000~3000℃,使置于其上的试样蒸发并转化为基态原子。由于其对特征辐射吸收,测量待测元素原子吸收信号,从而求出试样中待测元素的含量。
CAS号:
性质:又称高温炉原子吸收光谱法。利用低压大电流将石墨管、石墨棒、金属丝或金属舟加热到2000~3000℃,使置于其上的试样蒸发并转化为基态原子。由于其对特征辐射吸收,测量待测元素原子吸收信号,从而求出试样中待测元素的含量。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条