Results 241 to 250 of about 54,913 (297)
The mechanism of charge transfer between quantum dots and redox molecules
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Vacuum, 1994
Different energetic beams can be used for excitation of solids with the creation of holes in electronic levels: photons, ions, electrons. In this chapter only the electron impact excitation will be taken into account, but many of the conclusions can easily be extended to other excitation modes.
Bertolini, J.C., Massardier, J.
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Different energetic beams can be used for excitation of solids with the creation of holes in electronic levels: photons, ions, electrons. In this chapter only the electron impact excitation will be taken into account, but many of the conclusions can easily be extended to other excitation modes.
Bertolini, J.C., Massardier, J.
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Journal of Electron Spectroscopy and Related Phenomena, 1986
Abstract This article describes the principles and applications of Auger electron spectroscopy (AES). It provides information on the instrumentation typically used in the AES, including an electron gun, an electron spectrometer, a secondary electron detector, and an ion gun. The article also describes experimental methods and limitations
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Abstract This article describes the principles and applications of Auger electron spectroscopy (AES). It provides information on the instrumentation typically used in the AES, including an electron gun, an electron spectrometer, a secondary electron detector, and an ion gun. The article also describes experimental methods and limitations
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1975
When a vacancy is formed in one of the inner shells of an atom, it may be filled by either a radiative (x ray) or nonradiative (Auger) process. In most instances nature chooses the Auger process. Only when the transition energy exceeds roughly 10 keV is x-ray emission predominant.
A. JOSHI, L.E. DAVIS, P.W. PALMBERG
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When a vacancy is formed in one of the inner shells of an atom, it may be filled by either a radiative (x ray) or nonradiative (Auger) process. In most instances nature chooses the Auger process. Only when the transition energy exceeds roughly 10 keV is x-ray emission predominant.
A. JOSHI, L.E. DAVIS, P.W. PALMBERG
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Surface Science, 1971
Abstract Auger Electron Spectroscopy has recently emerged as one of the most sensitive methods of surface analysis and is becoming widely accepted due to the relative simplicity of the LEED-Auger and cylindrical mirror analyzers. There is thus a need for a review describing the underlying physical principles of the Auger process and containing a ...
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Abstract Auger Electron Spectroscopy has recently emerged as one of the most sensitive methods of surface analysis and is becoming widely accepted due to the relative simplicity of the LEED-Auger and cylindrical mirror analyzers. There is thus a need for a review describing the underlying physical principles of the Auger process and containing a ...
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Contemporary Physics, 1973
Abstract Auger spectroscopy has progressed from its initial use as a purely research tool to that of an analytical technique of general application wherever information about the composition of non-volatile surfaces is important. This, article describes the underlying physics of the Auger process and the instrumentation involved, discusses the reasons ...
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Abstract Auger spectroscopy has progressed from its initial use as a purely research tool to that of an analytical technique of general application wherever information about the composition of non-volatile surfaces is important. This, article describes the underlying physics of the Auger process and the instrumentation involved, discusses the reasons ...
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Spin-polarized Auger-electron spectroscopy
Physical Review B, 1987A comprehensive review of spin-polarized Auger-electron spectroscopy on 3d transition-metal ferromagnets is presented. The kind of information obtained from the Auger-electron spin polarization depends on the particular transition involved. Decays with emission of a valence electron probe the local magnetization at the site where the transition occurs.
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2018
As each element carries unique values of core-level binding energies, EC, this has enabled the development of numerous elemental composition analysis methods based on core electron excitation.
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As each element carries unique values of core-level binding energies, EC, this has enabled the development of numerous elemental composition analysis methods based on core electron excitation.
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1999
Auger Electron Spectroscopy (AES)1, 2, 3, 4, 5, 6 is an essential tool for analyzing failed IC’s where surface characterization is required. It provides elemental identification and, in some cases, chemical information about substances in highly localized areas in very near-surface regions of materials, thin films, or film interfaces.
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Auger Electron Spectroscopy (AES)1, 2, 3, 4, 5, 6 is an essential tool for analyzing failed IC’s where surface characterization is required. It provides elemental identification and, in some cases, chemical information about substances in highly localized areas in very near-surface regions of materials, thin films, or film interfaces.
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Deconvolution techniques in Auger electron spectroscopy
Surface Science, 1971The use of Auger electron spectroscopy (AES) as a tool for the study of band structure or Auger processes in solid has been limited by the lack of resolution resulting from the excitation and measurement methods used in AES. In addition to these instrument broadening effects, it is found that discrete, inelastic interactions of Auger electrons in solid
W. M. Mularie, W. T. Peria
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