Stephen B. Soffer scite author profile

Stephen B. Soffer

5Publications

189Citation Statements Received

0Citation Statements Given

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523

184

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Brooklyn College, University of Lausanne

Publications

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Statistical Model for the Size Effect in Electrical Conduction

Soffer¹

1967

446

162

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A statistical model for the reflection of scalar plane waves from a rough surface leads to a plane wave in the direction of specular reflection and to a contribution with a finite angular spread about that direction, depending on the tangential correlation of the surface asperities. Based upon on this result, a new semiclassical model, which satisfies the requirement of flux conservation, is proposed for the boundary condition for the distribution function of the size effect in the electrical conductivity. In the absence of correlation, the resultant expression replaces the constant specularity parameter p of Fuchs by the function exp[−(4π(h/λ) cosθ0)2] with θ0 the angle of the electron wave vector with the surface normal. Correlation produces an additional forward component within the diffuse contribution. Numerical results of the size effect for zero correlation are compared to the Fuchs model as well as a more recent model, and show a different thickness dependence for thin samples. The effect of correlation is to add to the conductivity, as a result of the diffuse contribution whose velocity has a finite expectation value in the direction of the current.

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A galvanomagnetic investigation of TiB2, NbB2 and ZrB2

Gordon

Soffer

1975

Journal of Physics and Chemistry of Solids

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Radiofrequency surface impedance and size effects, and electronic mean free paths in Cd

1973

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Evaluation of Expressions for the Electrical Resistivity in Thin Plane Samples

Soffer¹

1965

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Hall Effects, Resistivity, and Thermopower in Fe andFe1−xNixfor
Soffer¹,
Dreßen²,
Pugh³
1965
Phys. Rev.

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Stephen B. Soffer

Statistical Model for the Size Effect in Electrical Conduction

A galvanomagnetic investigation of TiB2, NbB2 and ZrB2

Radiofrequency surface impedance and size effects, and electronic mean free paths in Cd

Evaluation of Expressions for the Electrical Resistivity in Thin Plane Samples

Hall Effects, Resistivity, and Thermopower in Fe andFe1−xNixfor
Soffer¹,
Dreßen²,
Pugh³
1965
Phys. Rev.

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About

Stephen B. Soffer

Statistical Model for the Size Effect in Electrical Conduction

A galvanomagnetic investigation of TiB2, NbB2 and ZrB2

Radiofrequency surface impedance and size effects, and electronic mean free paths in Cd

Evaluation of Expressions for the Electrical Resistivity in Thin Plane Samples

Hall Effects, Resistivity, and Thermopower in Fe andFe1−xNixforSoffer1, Dreßen2, Pugh3 1965Phys. Rev.

Contact Info

Product

Resources

About

Hall Effects, Resistivity, and Thermopower in Fe andFe1−xNixfor
Soffer¹,
Dreßen²,
Pugh³
1965
Phys. Rev.