本法分析样品与冷原子荧光法的结果一致。
The analytical results of samples agree with those obtained by cold atomic fluorescence method.
在许多原子荧光法的应用中,可以采用非分散的光学系统。
In many atomic fluorescence applications a non - dispersive optical system may be used.
方法:采用原子吸收光谱法、冷原子荧光法、双道原子荧光法。
Method: Using atomic absorption spectrometry, cold atomic fluorescence method and double tracts atomic fluorescence spectrometry.
配制完成后使用原子荧光法对其进行了多次重复测量,结果表明,测量值与配制值一致。
The solution in ampoules has been measured by AF method without significant difference between preparing value and measuring value.
结果表明: 原子荧光法具有数据准确、精密度高、简便、高效、适用性强的特点,可用于土壤中微量汞的检测。
Result:This method has characteristic of the accurate data, the high accuracy, operating easy, the better applicability, and it was applied to determine trace micro amounts of mercury in soil.
研究了采用氢化物原子荧光法同时对硒、碲进行直接测定的条件,拟定了适合于一般地质样品中痕量硒和碲的分析方法。
The conditions to determine Se and te directly and simultaneously with hydride AFS is studied. A method suitable for determination of trace Se and te in general geological sample is worker out.
研究了采用氢化物原子荧光法同时对硒、碲进行直接测定的条件,拟定了适合于一般地质样品中痕量硒和碲的分析方法。
The conditions to determine Se and te directly and simultaneously with hydride AFS is studied. A method suitable for determination of trace Se and te in general geological sample is worker out.
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