Geoscience Reference
In-Depth Information
Sugata, S., and S. Yoden (1992), Steady axisymmetric flow due
to differential heating in a rotating annulus and its depen-
dence on experimental parameters,
J. Met. Soc. Japan
,
70
,
1005-1017.
Sugata, S., and S. Yoden (1994), Chaotic Lagrangian motion and
heat transport in a steady, baroclinic annulus wave,
J. Met.
Soc. Japan
,
72
, 569-587.
Tajima, T., T. Nakamura, and T. Kuroda (1995), Laboratory
experiments of Lagrangian motions in a steady baroclinic
wave - internal structures of vortices,
J. Met. Soc. Japan
,
73
,
37-46.
Tajima, T., T. Nakamura, and K. Kurosawa (1999), Experi-
mental observations of 3D Lagrangian motions in steady
baroclinic waves: II,
J. Met. Soc. Japan
,
77
, 17-29.
Tamaki, K., and K. Ukaji (2003), An experimental study of wave
dispersion in a differentially heated rotating fluid annulus with
a radially sloping bottom,
J. Met. Soc. Japan
,
81
, 951-962.
Treguier, A. M., I. M. Held, and V. D. Larichev (1997),
Parametrization of quasigeostrophic eddies in primitive equa-
tion ocean models,
J. Phys. Oceanogr.
,
27
, 567-580.
Ukaji, K., and K. Tamaki (1989), A comparison of laboratory
experiments and numerical simulations of steady baroclinic
waves produced in a differentially heated rotating annulus,
J. Met. Soc. Japan
,
67
, 359-373.
Vallis, G. K. (2006),
Atmospheric and Oceanic Fluid Dynamics:
Fundamentals and Large-Scale Circulation
, Cambridge Univ.
Press, Cambridge, UK.
van Leeuwen, P. J. (2010), Nonlinear data assimilation in geo-
sciences: An extremely efficient particle ilter,
Q. J. Roy. Mete-
orol. Soc.
,
136
, 1991-1999.
Vettin, F. (1857), Uber den aufsteigen Luftström, die Entstehung
des Hagels und der Wirbel-Stürme,
Ann. Physik Chemie
,
102
,
246-255.
Vettin, F. (1884), Experimentale darstellung von luftbewe-
gungen unter dem einflusse von temperatur-unterschieden
und rotations-impulsen,
Meteorolol. Z.
,
1
, 227-230, 271-
276.
Visbeck, M. J., J. Marshall, and T. W. N. Haine (1997), Specifi-
cation of eddy transfer coefficients in coarse-resolution ocean
circulation models,
J. Phys. Oceanogr.
,
27
, 381-402.
von Larcher, T., and C. Egbers (2005), Experiments on tran-
sitions of baroclinic waves in a differentially heated rotating
annulus,
Nonlin. Proc. Geophys.
,
12
, 1033-1041.
von Larcher, T., A. Fournier, and R. Hollerbach (2013), The
influence of a sloping bottom endwall on the linear stability
in the thermally driven rotating annulus with a free surface,
Theor. Comput. Fluid Dyn.
, 27, 433-451.
Warn, T., and P. Gauthier (1989), Potential vorticity mixing
by marginally unstable baroclinic disturbances,
Tellus
,
41A
,
115-131.
Weng, H.-Y., and A. Barcilon (1987), Wave structure and evolu-
tion in baroclinic flow regimes,
Quart. J. R. Meteor. Soc.
,
113
,
1271-1294.
Weng, H.-Y., A. Barcilon, and J. Magnan (1986), Transi-
tions between baroclinic flow regimes,
J. Atmos. Sci.
,
43
,
1760-1777.
White, A. A. (1988), The dynamics of rotating fluids: numerical
modelling of annulus lows,
Met. Mag.
,
117
, 54-63.
White, H. D., and E. L. Koschmieder (1981), Convection in a rot-
ating, laterally heated annulus. Pattern velocities and ampli-
tude oscillations,
Geophys.Astrophys.FluidDyn.
,
18
, 301-320.
Willcocks, B. T., and J. G. Esler (2012), Nonlinear baroclinic
equilibration in the presence of Ekman friction,
J. Phys.
Oceanogr.
,
42
, 225-242.
Williams, G. P. (1988a), The dynamical range of global circula-
tions. I,
Clim. Dyn.
,
2
, 205-260.
Williams, G. P. (1988b), The dynamical range of global circula-
tions. II,
Clim. Dyn.
,
3
, 45-84.
Williams, G. P., and J. L. Holloway (1982), The range and unity
of planetary circulations,
Nature
,
297
, 295-299.
Williams, P. D., T. W. N. Haine, and P. L. Read (2005), On the
generation mechanisms of short-scale unbalanced modes in
rotating two-layer flows with vertical shear,
J. Fluid Mech.
,
528
, 1-22.
Williams, P. D., T. W. N. Haine, and P. L. Read (2008), Inertia-
gravity waves emitted from balanced low: Observations, prop-
erties, and consequences,
J. Atmos. Sci.
,
65
, 3543-3556.
Williams, P. D., P. L. Read, and T. W. N. Haine (2010), Testing the
limits of quasi-geostrophic theory: Application to observed
laboratory flows outside the quasi-geostrophic regime,
J. Fluid
Mech.
,
649
, 187-203.
Wordsworth, R. D., P. L. Read, and Y. H. Yamazaki (2008),
Turbulence, waves, and jets in a differentially heated rotating
annulus experiment,
Phys. Fluids
,
20
, 126,602.
Young, R. M. B., and P. L. Read (2008), Flow transitions resem-
bling bifurcations of the logistic map in simulations of the
baroclinic rotating annulus,
Physica D
,
237
, 2251-2262.
Young, R. M. B., and P. L. Read (2013), Data assimilation in the
laboratory using a rotating annulus experiment,
Quart. J. R.
Meteor. Soc.
,p.inpress.
Zurita-Gotor, P., and R. S. Lindzen (2007), Theories of baro-
clinic adjustment and eddy equilibrations, in
The Global Cir-
culation of the Atmosphere
, edited by T. Schneider and A. H.
Sobel, pp. 22-46, Princeton University Press, Princeton, N.I.