REFEREED PUBLICATIONS
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W. Kuang, Multidisciplinary studies of deep Earth: from geodynamo to
geodesy, Global Tect. Metal. (in press)
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Lin, R.-Q. and W. Kuang, The finite
amplitude wave-wave interaction in a global statistical wave prediction model,
Transworld Research Network, (accepted)
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Kuang, W. and B.F. Chao, Geodynamo Modeling and Core-Mantle
Interactions, Geodynamics Series, 31 (eds. Dehant, Creager, Karato, Zatman, AGU
Monograph, AGU, Washington, DC), 193-212, 2003.
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Lin, R.-Q. and W. Kuang, A finite amplitude ship motion
model, Proceedings of The 24th Naval Hydrodynamics Symposium (Fukuoka, Japan),
18-24, 2002.
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Kuang, W. and B. F. Chao, Topographic Core-mantle coupling in geodynamo
modeling, Geophys. Res. Lett.
28, no. 9, 1871-1874, 2001.
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Lin, R.-Q. and W. Kuang, A study of long wave and short wave
interactions by using a new spectral model, Proceedings of The 6th International
Workshop on Wave Hindcasting and Forecasting (Monterey, CA), 2000.
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Kuang, W., Force Balances and Convective State in the Earth's Core,
Phys. Earth. Planet. Inter.,
116, 65-79, 1999.
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Kuang, W. and J. Bloxham, Numerical modeling of magnetohydrodynamic
convection in a rapidly rotating spherical shell: weak and strong field dynamo
action, J. Comp. Phys.,
153, 51-81, 1999.
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Lin. R.-Q. and W. Kuang,Nonlinear Source Function in a New Coastal Wave
Model, Proceedings of the 5th International Workshop on Wave Hindcasting and
Forecasting, (Environment, Canada), 262-268, 1998.
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Kuang, W. and J. Bloxham, Numerical dynamo modeling: comparison with the
Earth's magnetic field, in The Core-Mantle Boundary Region, Geodynamics series,
28, (AGU Monograph, AGU, Washington, DC), 197-208, 1998.
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W. Kuang and J. Bloxham, A
numerical dynamo model in an Earth-like dynamical regime, Nature
389, 371-374 (1997)
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W. Kuang and J. Bloxham, Numerical
dynamo modeling: comparison with the Earth's magnetic field, Geophysical
Monograph The core-mantle boundary region (eds. M.
Gurnis, M. Wysession, E. Knittle and B. Buffett) (1997)
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W. Kuang and J. Bloxham, Numerical
modeling of magnetohydrodynamic convection in a rapidly rotating spherical
shell: weak and strong field dynamo action, submitted to J. Comp.
Phys.
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W. Kuang and J. Bloxham, On
the dynamics of topographical core-mantle coupling, Phys. Earth Planet.
Inter. 99, 289-294 (1997)
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J. Bloxham and W. Kuang, The
topographic torque on a bounding surface of a rotating gravitating fluid
and the excitation by core motions of decadal fluctuations in the Earth's
rotation, Geophys. Res. Lett. 22 (1995)
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W. Kuang,Effect
of boundary conditions on resistive instabilities in rapidly rotating fluids,
Geophys. Astrophys. Fluid Dyn. 97, 159-190 (1994)
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D. R. Fearn and W. Kuang, Resistive
instabilities in a rapidly rotating fluid without critical layers, Geophys.
Astrophys. Fluid Dyn. 94, 181-206 (1994)
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W. Kuang and J. Bloxham, On
the effect of boundary topography on flow in the Earth's core, Geophys.
Astrophys. Fluid Dyn. 72, 161-195 (1993)
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S. Lan, W. Kuang and P. H. Roberts, Ideal
instabilities in rapidly rotating MHD systems that have critical layers,
Geophys. Astrophys. Fluid Dyn. 69,133-160 (1992)
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W. Kuang and P. H. Roberts, Resistive
instabilities of rapidly rotating fluids: linear theory of convective modes,
Geophys. Astrophys. Fluid Dyn. 67, 129-162 (1992)
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W. Kuang and P. H. Roberts, Resistive
instabilities of rapidly rotating fluids: linear theory of g-mode,
Geophys. Astrophys. Fluid Dyn. 60, 295-333 (1991)
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R. Q. Lin, H. Kreiss, W. Kuang and L. Y. Leung, A
study of long term climate change in a simple seasonal nonlinear climate
model, Clim. Dyn. 6, 35-41 (1991)
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W. Kuang and P. H. Roberts, Resistive
instabilities of rapidly rotating fluids: linear theory of tearing
mode, Geophys. Astrophys. Fluid Dyn. 55, 199-239 (1990)
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W. Zimmermann, D. Armbruster, L. Kramer and W. Kuang,
The effect of spatial modulations
on codimension-2 bifurcation, Europhys.Lett. 6, 505-510
(1988)