2026 Oliver B. Fringer: Earth Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Earth Science	35	7552	6991	2578	2279	129	5162

Overview

Oliver B. Fringer is affiliated with Stanford University in the United States. The research conducted focuses primarily on earth and planetary sciences, with notable contributions to engineering. Their body of work spans several subfields including oceanography, computational mechanics, earth-surface processes, atmospheric science, and ecology.

The scientist's research addresses diverse topics such as oceanographic and atmospheric processes, coastal and marine dynamics, ocean waves and remote sensing, granular flow and fluidized beds, coastal wetland ecosystem dynamics, tropical and extratropical cyclones research, and particle dynamics in fluid flows.

Oliver B. Fringer has published regularly in various scientific journals. Frequent publication venues include:

Journal of Geophysical Research Oceans
Journal of Fluid Mechanics
Geophysical Research Letters
Ocean Dynamics
Journal of Physical Oceanography

Recent papers by Fringer feature research on topics such as earth-moon evolution, particle clustering in suspensions, fluidized bed dynamics, sediment stratification in estuarine environments, and variability of floc characteristics in shallow estuaries. Selected recent publications include:

Long-Term Earth-Moon Evolution With High-Level Orbit and Ocean Tide Models (2021, Journal of Geophysical Research Planets)
The effects of particle clustering on hindered settling in high-concentration particle suspensions (2021, Journal of Fluid Mechanics)
Competing flow and collision effects in a monodispersed liquid-solid fluidized bed at a moderate Archimedes number (2021, Journal of Fluid Mechanics)
Sediment-Induced Stratification in an Estuarine Bottom Boundary Layer (2020, Journal of Geophysical Research Oceans)
On the Variability of Floc Characteristics in a Shallow Estuary (2022, Journal of Geophysical Research Oceans)

Fringer collaborates frequently with other researchers. Notable coauthors include Stephen G. Monismith, Yinuo Yao, Craig S. Criddle, Galen Egan, and Grace Chang.

Best Publications

The formation and fate of internal waves in the South China Sea

Matthew H. Alford;Matthew H. Alford;Thomas Peacock;Jennifer A. MacKinnon;Jonathan D. Nash

721
Citations
An unstructured-grid, finite-volume, nonhydrostatic, parallel coastal ocean simulator

O.B. Fringer;M. Gerritsen;R.L. Street

567
Citations
Three‐dimensional, nonhydrostatic numerical simulation of nonlinear internal wave generation and propagation in the South China Sea

Z. Zhang;O. B. Fringer;S. R. Ramp

209
Citations
Energetics of Barotropic and Baroclinic Tides in the Monterey Bay Area

Dujuan Kang;Oliver Fringer

203
Citations
Modeling environmental DNA transport in the coastal ocean using Lagrangian particle tracking

Elizabeth A Andruszkiewicz;Jeffrey R Koseff;Oliver B Fringer;Nicholas T Ouellette

176
Citations
Mechanistic Modeling of Broth Temperature in Outdoor Photobioreactors

Quentin Béchet;Andy Shilton;Oliver B Fringer;Raul Muñoz

144
Citations
On the formation and propagation of nonlinear internal boluses across a shelf break

Subhas K. Venayagamoorthy;Oliver B. Fringer

141
Citations
Nearshore internal bores and turbulent mixing in southern Monterey Bay

Ryan K. Walter;C. Brock Woodson;Robert S. Arthur;Oliver B. Fringer

140
Citations
Physical vs. numerical dispersion in nonhydrostatic ocean modeling

Sean Vitousek;Oliver B. Fringer

139
Citations
The future of coastal and estuarine modeling: Findings from a workshop

Oliver B. Fringer;Clint N. Dawson;Ruoying He;David K. Ralston

136
Citations
Modeling and Prediction of Internal Waves in the South China Sea

Harper L Simmons;Ming-Huei Chang;Ya-Ting Chang;Shenn-Yu Chao

127
Citations
On the Calculation of Available Potential Energy in Internal Wave Fields

Dujuan Kang;Oliver Fringer

114
Citations
A model for the simulation of coupled flow-bed form evolution in turbulent flows

Yi-Ju Chou;Oliver B. Fringer

113
Citations
High-resolution simulations of a macrotidal estuary using SUNTANS

B. Wang;O.B. Fringer;S.N. Giddings;D.A. Fong

102
Citations
Improved parameterization of seagrass blade dynamics and wave attenuation based on numerical and laboratory experiments

Robert B. Zeller;Joel S. Weitzman;Morgan E. Abbett;Francisco J. Zarama

101
Citations
Simulations of shear instabilities in interfacial gravity waves

Michael F. Barad;Oliver B. Fringer

95
Citations
Numerical simulation of internal tides and the resulting energetics within Monterey Bay and the surrounding area

S. M. Jachec;O. B. Fringer;M. G. Gerritsen;R. L. Street

80
Citations
Reducing numerical diffusion in interfacial gravity wave simulations

O. B. Fringer;S. W. Armfield;R. L. Street

77
Citations
Numerical simulations of the interaction of internal waves with a shelf break

S. K. Venayagamoorthy;O. B. Fringer

75
Citations
Modeling exposure close to air pollution sources in naturally ventilated residences: association of turbulent diffusion coefficient with air change rate.

Kai-Chung Cheng;Viviana Acevedo-Bolton;Ruo-Ting Jiang;Neil E. Klepeis

73
Citations
Sensitivity analysis of three-dimensional salinity simulations in North San Francisco Bay using the unstructured-grid SUNTANS model

Vivien P. Chua;Oliver B. Fringer

69
Citations
Modeling and understanding turbulent mixing in a macrotidal salt wedge estuary

B. Wang;S. N. Giddings;O. B. Fringer;E. S. Gross

68
Citations

Frequent Co-Authors

Stephen G. Monismith Stanford University

Jeffrey R. Koseff Stanford University

Robert L. Street Stanford University

Craig S. Criddle Stanford University

Mark T. Stacey University of California, Berkeley

Rosamond L. Naylor Stanford University

Andrew J. Manning Plymouth University

Harper L. Simmons University of Alaska Fairbanks

David M. Farmer University of Rhode Island

E. Eric Adams MIT

External Links

Personal website of Oliver B. Fringer

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