Brief description:An inductively coupled plasma optical emission spectrometer uses a plasma-excited light source to vaporize and atomize the sample, breaking it down into its atomic state. The atoms can then be further ionized into ions, which, along with the atoms, emit light when excited in the light source. A spectroscopic system separates the light emitted by the source into a spectrum arranged by wavelength, and then a photoelectric device detects the spectrum. Based on the measured spectral wavelengths, you can identify the sample, and by the intensity of the emitted light, you can quantify it (it can analyze over 70 elements in the periodic table).
Industry Applications:Qualitative and quantitative analysis of metal elements and some non-metal elements.
Detailed
An inductively coupled plasma optical emission spectrometer uses a plasma-excited light source to vaporize and atomize the sample, breaking it down into its atomic state. The atoms can then be further ionized into ions, which, along with the atoms, emit light when excited in the light source. A spectroscopic system separates the light emitted by the source into a spectrum arranged by wavelength, and then a photoelectric device detects the spectrum. Based on the measured spectral wavelengths, you can identify the sample, and by the intensity of the emitted light, you can quantify it (it can analyze over 70 elements in the periodic table).
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