F. W. Paul Götz scite author profile

The observation of nuclear quadrupole interactions in amorphous solids provides a unique possibility of obtaining information about the angular distribution of local ionic coordinations, complementary to the information about radial distributions deduced from x-ray and neutron diA'raction and from extended x-ray absorption fine structure measurements. In the present paper the relation between ionic coordinations and the distribution of electric field gradients {EFG)is investigated. It is shown that the distribution function P(V",g) of the splitting parameters V" (the electric field gradient) and y (the asymmetry parameter) in general yields zero probability both for V"=0 and for y = 0. For solids which are isotropic on the average, the distribution function of the components V, . I, of the EFG tensor depends only on two variables, the invariant functions of the tensor components [Det(V, ,) and XV, . '"].Expressions for these quantities in terms of the radial coordinates of the ions causing the EFG and of the bond angles between pairs of ions are given. For amorphous solids with random ionic coordination an analytic approximation for the distribution function P(V",y) is derived. This function is strongly dominated by the distribution of ions in the first coordination shell. The results are applied to the analysis of Mossbauer spectra of '"Gd in amorphous Gd-Ni alloys.

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Vertical Distribution of Ozone in the Atmosphere

Götz¹,

Dobson

Meetham

1933

Nature

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Epidemiologically non-feasible singleton reactors at the final stage of BoHV1 eradication: Serological evidence of BoHV2 cross-reactivity

Böttcher¹,

Boje

Janowetz³

et al. 2012

Veterinary Microbiology

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The vertical distribution of ozone in the atmosphere

Götz

Meetham

Dobson

1934

Proc. R. Soc. Lond. A

150

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Ozone in the Atmosphere

Götz

1951

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F. W. Paul Götz

Atomic coordination and the distribution of electric field gradients in amorphous solids

Vertical Distribution of Ozone in the Atmosphere

Epidemiologically non-feasible singleton reactors at the final stage of BoHV1 eradication: Serological evidence of BoHV2 cross-reactivity

The vertical distribution of ozone in the atmosphere

Ozone in the Atmosphere

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