Study on Tantalum Coil Atomizer for Atomic Absorption Spectrometry;
钽丝圈原子化器原子吸收光谱法的研究
A low power argon microwave plasma obtained with surfatron was used as an atomizer for atomic absorption spectrometry.
将Surfatron 获得的常压、低功率氩微波等离子体( MWP) 用作原子吸收光谱法(AAS) 的原子化器,采用电热蒸发(ETV) ,浓H2SO4 吸收去溶的进样方法,研究了微波等离子体石英管原子化器和进样装置,考察了各种实验参数及共存元素等因素对测定Ag 的影响·该方法用于实际样品分析,获得了较好的结果
Research on Program-controlled Power with Single Chip Microcomputer for Electrothermal Atomizer
电热原子化器的单片机程控电源研制
Advances in Application of Plasma as Atomizer in AFS and AAS
等离子体作为原子化器在原子荧光和原子吸收光谱分析中应用的进展
The sample is introduced as an aerosol by use of a nebulizer or atomizer.
通过使用雾化器或原子化器,样品以气溶胶的形式引入。
Improvement on the Installation of Atomic Absorption Hydride Generator
原子吸收法氢化物发生器装置的改进
Nuclear weapons would destroy chemical and biological materials by blasting them out of their containers and then rapidly heating them.
核子武器会将生化武器原料的容器炸开,并快速加热,毁去生化武器的原料。
Determination of serum selenium by HGAAS (hydrogenation atomic absorption spectrometry) with flow injection
血清硒流动注射氢化物发生器-原子吸收测定法
Phase Properties of the Field in One-Atom Maser;
单原子微波激射器中场的位相演化特征
Design of sensor for hydrazine gas based on photo ionization principle
基于光离子化原理的肼类监测传感器的设计
The Design and Evaluation of Horizontal Pipe Mini-Flame Atomization and Ionization Synchronous Detector in GC/AAS
色谱/原子吸收联用系统中卧管式微火焰原子化离子化同步检测器的研究与应用
To subject to bombardment with atomic weapons.
用原子弹轰炸用原子武器轰炸某物
Principles & Design of Micro-electronics Apparatus
微电子器件原理与设计
carbon filament atom reservoir
石墨灯丝原子储存器
electric discharge atomic vapor laser
放电原子蒸气激光器
The number of atoms in a molecule.
原子数,原子价,化合价单质分子中的原子数
The huge bronzes showed little influence of the bronze culture of the Shang culture in Henan Province.
这里的青铜礼器形制庞大,难以找到中原殷商青铜文化的影子。
The Measurement of the Relative Atomic Weight of Magnesium Through Replacement by Using Microscale Chemical Laboratory Instruments;
用微型化学实验仪器做置换法测定镁的相对原子量
A Novel Method of Measuring Fluorine Atom Flow Rate for Discharge Driven HF/DF Chemical Laser
用于电激励HF/DF化学激光器的F原子流量检测新方法
Choice of Working Condition of Instrument in HG-AFS Determination of Trace Amounts of Arsenic
氢化物发生-原子荧光光谱法测定痕量砷时仪器工作条件的选择