LJ Allen scite author profile

A method to obtain the crystal potential from the intensities of the diffracted beams in high-energy electron diffraction is proposed. It is based on a series of measurements for specific well determined orientations of the incident beam, which determine the moduli of all elements of the scattering matrix. Using unitarity and the specific form of the scattering matrix (including symmetries), an overdetermined set of non-linear equations is obtained from these data. Solution of these equations yields the required phase information and allows the determination of a (projected) crystal potential by inversion that is unique up to an arbitrary shift of the origin. The reconstruction of potentials from intensities is illustrated for two realistic examples, a {111} systematic row case in ZnS and a [110] zone-axis orientation in GaAs (both noncentrosymmetric crystals).

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Elastic electron scattering from helium: absolute experimental cross sections, theory and derived interaction potentials

Brunger

Buckman

Allen

et al. 1992

J. Phys. B: At. Mol. Opt. Phys.

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The authors report new differential cross section measurements (E0=1.5-50 eV) and coupled channel optical model calculations for elastic scattering of electrons from helium. The experimental results, from a crossed electron-atomic beam apparatus are analysed via a complex phaseshift technique with the derived phaseshifts, and their associated errors, then being used to derive total elastic, total reaction, total momentum transfer and grand total cross sections, and their respective errors, in a mathematically rigorous manner. Further, the authors applied fixed-energy inverse scattering techniques to the present data in order to deduce the interaction potential between the colliding particles.

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Inelastic scattering of fast electrons by crystals

Allen

Josefsson

1995

Phys. Rev. B

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Interpreting atomic-resolution spectroscopic images

et al. 2007

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Effects of thermal diffuse scattering and surface tilt on diffraction and channeling of fast electrons in CdTe

Allen

Rossouw

1989

Phys. Rev. B

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LJ Allen

Obtaining the Crystal Potential by Inversion from Electron Scattering Intensities

Elastic electron scattering from helium: absolute experimental cross sections, theory and derived interaction potentials

Inelastic scattering of fast electrons by crystals

Interpreting atomic-resolution spectroscopic images

Effects of thermal diffuse scattering and surface tilt on diffraction and channeling of fast electrons in CdTe

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