C. E. Kuyatt scite author profile

The design, construction, operation, and performance of a spin polarized electron source utilizing photoemission from negative electron affinity (NEA) GaAs are presented in detail. A polarization of 43±2% is produced using NEA GaAs (100). The polarization can be easily modulated without affecting other characteristics of the electron beam. The electron beam intensity depends on the intensity of the exciting radiation at 1.6 eV; beam currents of 20 μA/mW are obtained. The source is electron optically bright; the emittance phase space (energy-area-solid angle product) is 0.043 eV mm2 sr. The light optics, electron optics, and cathode preparation including the GaAs cleaning and activation to NEA are discussed in depth. The origin of the spin polarization in the photoexcitation process is reviewed and new equations describing the depolarization of photoelectrons in the emission process are derived. Quantum yield and polarization measurements for both NEA and positive electron affinity surfaces are reported. The important considerations for interfacing he polarized electron source to an experiment are illustrated by its application to polarized low energy electron diffraction (PLEED). The advantages of this spin polarization modulated electron gun for PLEED are clearly demonstrated by sample PLEED results for W(100) and ferromagnetic Ni(110). A comparison with other polarized electron sources shows that the GaAs spin polarized electron source offers many advantages for a wide range of applications.

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Elastic Resonances in Electron Scattering from He, Ne, Ar, Kr, Xe, and Hg

Kuyatt

1965

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Electron scattering from NO and N2O below 10 eV

Zecca

Lazzizzera

Krauß

et al. 1974

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Total electron scattering cross sections for NO and N2O in the energy range 0–10 eV were obtained from exponential attenuation in a straight-line collision chamber without a confining magnetic field. Good agreement is obtained with previous measurements where available. For NO, cross sections have been obtained for the first time for resonance structure in the energy range 0–2.5 eV. There appear to be small, sharp resonances between the large resonances. For both NO and N2O the cross section is observed to increase rapidly at very low energies. Structure in the cross sections is interpreted in terms of electronic states of NO− and N2O−.

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Electron Monochromator Design

Kuyatt

Simpson

1967

373

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A study has been made of all the known factors which limit the performance of high resolution (0.07 to 0.01 eV FWHM) monochromators. These limiting factors have been incorporated into design equations for the optimum (maximum current output) monochromator. The conclusions are tested by performance measurements on a prototype instrument. The results require the introduction into the design equation of a new limiting factor, an anomalous energy spread in dense electron beams, which is empirically determined.

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Rydberg series of small molecules VIII. Photoelectron spectroscopy and electron spectroscopy of NO₂

et al. 1970

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The photoelectron spectrum of NO2 has been measured with high resolution up to 27.5 eV and interpreted by use of molecular orbital theory, taking especially the vibrational structure into account. The electron impact energy loss spectrum has been measured with electron energy 100 eV. The spectrum above 6.5 eV has been interpreted as due to Rydberg transitions and comparison with spectroscopic measurements have been made.

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C. E. Kuyatt

The GaAs spin polarized electron source

Elastic Resonances in Electron Scattering from He, Ne, Ar, Kr, Xe, and Hg

Electron scattering from NO and N2O below 10 eV

Electron Monochromator Design

Rydberg series of small molecules VIII. Photoelectron spectroscopy and electron spectroscopy of NO₂

Contact Info

Product

Resources

About

C. E. Kuyatt

The GaAs spin polarized electron source

Elastic Resonances in Electron Scattering from He, Ne, Ar, Kr, Xe, and Hg

Electron scattering from NO and N2O below 10 eV

Electron Monochromator Design

Rydberg series of small molecules VIII. Photoelectron spectroscopy and electron spectroscopy of NO2

Contact Info

Product

Resources

About

Rydberg series of small molecules VIII. Photoelectron spectroscopy and electron spectroscopy of NO₂