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For application of the He-rf-microplasma, the atomic emission system was optimized by changing both the radio frequency (rf) power (60 200 W) and cooling temperature of the USN (− 12 9 °C).
Modelling atomic behaviour under incident electromagnetic radiation using "virtual oscillators" at the absorption and emission frequencies, rather than the (different) apparent frequencies of the Bohr orbits, led Max Born, Werner Heisenberg and Kramers to explore different mathematical models.
Atomic Absorption Spectroscopy, Atomic Emission Spectroscopy, and Inductively Coupled Plasma-Mass Spectrometry.
They include traditional analytical techniques, such as atomic adsorption spectroscopy (AAS), atomic fluorescence spectroscopy (AFS), and atomic emission spectroscopy (AES).
The microplasma is an excitation source for atomic emission spectrometry.
Subsequently, their performance with atomic absorption (AAS), atomic fluorescence (AFS) and atomic emission (AES) detectors was investigated employing arsane as a model analyte.
Inductively coupled plasma atomic emission spectroscopy.
inductively coupled plasma atomic emission spectrometry.
Inductively coupled plasma atomic emission spectrometer.
Ion-coupled plasma atomic emission spectrometry.
Inductively coupled plasma atomic emission spectroscopy analysis.
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