| 1. | However, a positive atomic ion may result from further Auger electron emission.
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| 2. | The Auger electrons can be applied in electron capture detectors for gas chromatography.
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| 3. | Such atoms also typically exhibit Auger electron emission.
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| 4. | The yield of the Auger electrons decreases with increasing " Z ".
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| 5. | The relative ranges of photoelectron primaries and Auger electrons depend on their respective energies.
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| 6. | When Auger electrons have lower energies than primary photoelectrons, they have shorter ranges.
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| 7. | Fluorescence and Auger electron yields as a function of atomic number for K shell vacancies.
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| 8. | This electron is called the auger electron.
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| 9. | These effects can be used for elemental detection through X-ray spectroscopy or Auger electron spectroscopy.
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| 10. | In the detection unit, Auger electrons are multiplied and the signal sent to data processing electronics.
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