C. J. Fall scite author profile

Quantum-size effects have been shown to influence significantly the determination of work functions from thin-slab calculations. We show here that a technique based on macroscopic averages can be used to reduce such effects and determine more precisely the work functions of metals from ab initio thin-film calculations. The technique combines the mean electrostatic potential step across the slab surface with the Fermi energy of a bulk crystal. The method is applied to Al(100) slabs containing 1-14 atomic layers.

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Work-function anisotropy in noble metals: Contributions fromdstates and effects of the surface atomic structure

Fall

Binggeli

Baldereschi

2000

Phys. Rev. B

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Anomaly in the anisotropy of the aluminum work function

1998

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Theoretical maps of work-function anisotropies

2001

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A Steady-State Model of a Floating Ring Bearing, Including Thermal Effects

Clarke

Fall

Hayden

et al. 1992

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A steady-state model of a conventional floating ring bearing is presented, specifically, to assess the feasibility of its use in the power generating industry. It necessitates the numerical solution of the Reynolds and energy equations for both inner and outer lubricant films. Oil recirculation and heat and mass transfer between the films are included. For the application considered, the oil temperatures and eccentricity ratios encountered are not excessive.

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C. J. Fall

Deriving accurate work functions from thin-slab calculations

Work-function anisotropy in noble metals: Contributions fromdstates and effects of the surface atomic structure

Anomaly in the anisotropy of the aluminum work function

Theoretical maps of work-function anisotropies

A Steady-State Model of a Floating Ring Bearing, Including Thermal Effects

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