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TimothyL. Miller. (1991) Comments on “convection in a rotating, laterally heated annulus: Transition to lower symmetry” by Lewis and Koschmieder. Geophysical & Astrophysical Fluid Dynamics 59:1-4, pages 83-90.
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E.L. Koschmieder & H.D. White. (1981) Convection in a rotating, laterally heated annulus the wave number transitions. Geophysical & Astrophysical Fluid Dynamics 18:3-4, pages 279-299.
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P.R. Jonas. (1981) Some effects of boundary conditions and fluid properties on vacillation in thermally driven rotating flow in an annulus. Geophysical & Astrophysical Fluid Dynamics 18:1-2, pages 1-23.
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P.R. Jonas. (1980) Laboratory experiments and numerical calculations of baroclinic waves resulting from potential vorticity gradients at low taylor number. Geophysical & Astrophysical Fluid Dynamics 15:1, pages 297-315.
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Peter A. Davies & Gösta Walin. (1975) Some exploratory experiments with a new type of rotating, differentially-heated fluid annulus. Tellus 27:6, pages 575-595.
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Jay S. Fein. (1973) An experimental study of the effects of the upper boundary condition on the thermal convection in a rotating, differentially heated cylindrical annulus of water. Geophysical Fluid Dynamics 5:1, pages 213-248.
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Jack A. C. Kaiser. (1973) Heat transfer and thermal boundary layers in high amplitude annulus waves. Geophysical Fluid Dynamics 4:4, pages 357-379.
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Jack A. C. Kaiser. (1972) Rotating deep annulus convection: The steady high amplitude wave regime—Internal thermal fields. Geophysical Fluid Dynamics 4:2, pages 159-186.
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J. E. Hart. (1972) A laboratory study of baroclinic instability. Geophysical Fluid Dynamics 3:3, pages 181-209.
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