W. S. Griffin scite author profile

W. S. Griffin

5Publications

90Citation Statements Received

6Citation Statements Given

How they've been cited

197

How they cite others

Affiliations

Northrop Grumman (United States), Glenn Research Center

Publications

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A Study of Fluid Squeeze-Film Damping

Griffin

Richardson

Yamanami³

1966

157

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The fluid squeeze-film produced by relative axial or tilting motion of two closely spaced plates provides viscous damping action over certain ranges of operation. When gas is the working fluid, a damper can be realized which is operable over a wide frequency range in the presence of extreme temperatures and intense radiation. A linearized analysis and approximate design equations, verified by a limited experimental program, are presented for several useful damper configurations.

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The calming effect of oil on water

Behroozi¹,

Cordray²,

Griffin³

et al. 2007

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The calming effect of oil on water has been known since ancient times. Benjamin Franklin was the first to investigate the effect, but the underlying mechanism for this striking phenomenon remains elusive. We used a miniature laser interferometer to measure the amplitude of surface waves to a resolution of ±5nm, making it possible to determine the effect of an oil monolayer on the attenuation of capillary waves and the surface dilational modulus of the monolayer. We present attenuation data on pure water, water covered by olive oil, water covered by a fatty acid, and a water-acetone mixture for comparison. From the attenuation data at frequencies between 251 and 551Hz, we conclude that the calming effect of oil on surface waves is principally due to the dissipation of wave energy caused by the Gibbs surface elasticity of the monolayer, with only a secondary contribution from the reduction in surface tension. Our data also indicate that the surface-dilational viscosity of the oil monolayer is negligible and plays an insignificant role in calming the waves.

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Acoustic waves and heating due to molecular energy transfer in an electric discharge CO laser

Culick

Shen

Griffin

1976

IEEE J. Quantum Electron.

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Abstract-This paper summarizes analytical studies and the interpretation of experimental results for the compression and rarefaction waves generated in the cavity of a pulsed CO electric discharge laser. A one-dimensional analysis of acoustic waves is applied to a transversely excited laser. The influences of heating in the cathode fall, heat transfer to the cathode, flow through both the anode and cathode, and bulk heating of the plasma are included. The analysis is used to relate the bulk heating rate to observable features of the pressure and density waves. Data obtained from interferograms and reported elsewhere are used to infer the bulk heating rates in a pulsed CO laser. Results are presented for CO/Ar, CO/Nz, and Nz plasmas. Comparison of the data with recent theoretical results for the heating due to electron/ neutral collisions and the anharmonic defect associated with V-V energy transfer shows substantial differences at lower values of total energy deposition. The change of heating with E/N is in fairly good agreement with predicted values.

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The response of cooled metal mirrors to high power laser pulses

Biricikoglu¹,

Griffin²

1974

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Acoustic waves formed in an electric discharge CO laser cavity

Culick

Shen

Griffin

1975

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W. S. Griffin

A Study of Fluid Squeeze-Film Damping

The calming effect of oil on water

Acoustic waves and heating due to molecular energy transfer in an electric discharge CO laser

The response of cooled metal mirrors to high power laser pulses

Acoustic waves formed in an electric discharge CO laser cavity

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