Prof Keke Zhang - Publications - CEMPS

Engineering, Mathematics and Physical Sciences Intranet

Prof Keke Zhang

Publications

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| 2012 | 2011 | 2010 | 2009 | 2008 | 2007 | 2006 | 2005 | 2004 | 2003 | 2002 | 2001 | 2000 | 1999 | 1998 | 1997 | 1996 | 1995 | 1994 | 1993 | 1992 | 1991 | 1990 | 1989 | 1988 | 1987 |

2012

Cui, Z., Kong, D., Pan, Y. and Zhang, K On the swimming motion of spheroidal magnetotactic bacteria, Fluid Dyn. Res, pp 055508, vol. 44
Kong, D., Cui, Z., Pan, Y. and Zhang, K On Stokes flows driven by a translating/rotating prolate spheroid at arbitrary angles, Int. J. of Pure and Applied Mathematics, pp 455, vol. 75

2011

Kong, D., Zhang, K., and Schubert, G On the variation of zonal gravity coefficients of a giant planet caused by its deep zonal flows, ApJ, pp 143, vol. 748
Schubert, G., Anderson, J., Zhang, K., Kong, D., Helled, R Shapes and gravitational fields of rotating two-layer Maclaurin ellipsoids: Application to planets and satellites, Physics of the Earth and Planetary Interiors, pp 364-379, vol. 187

2010

Kong, D., Zhang, K. and Schubert, G Shapes of two-layer models of rotating planets, Journal of Geophysical Research, pp E12003, vol. 115
Li, L., Liao X., Chan, K. and Zhang, K On nonlinear multiarmed spiral waves in slowly rotating fluid systems, Physics of Fluid, pp 011701, vol. 22
Liao X. and Zhang, K. Asymptotic andrnnumerical solutions of the initial value problem in rotatingrnplanetary fluid cores, Geophysical Journal Internationalrn, pp 181–192, vol. 180
Zhang, K., Kong, D. and Liao, X On fluid flows in precessing narrow annular channels: asymptotic analysis and numerical simulation, J. Fluid Mech, pp 116 - 146, vol. 656
Zhang, K., Kong, D. and Liao, X On fluid flows in precessing narrow annular channels: asymptotic analysis and numerical simulation, J. Fluid Mech, pp 116 - 146, vol. 656

2009

Palguta, J., Schubert, G., Zhang, K. and Anderson, D Constraints on the location, magnitude, and dimensions of Ganymede\'s mass anomalies. , Icarus, pp 615-625, vol. 201
Chan K., Zhang K. and X. Liao An EBE finite element method for simulating nonlinear flows in rotating spheroidal cavities, International Journal for Numerical Methods in Fluids, pp (in press)
Christensen UR, et al. and Zhang, K. A numerical dynamo benchmark , Phys. Earth Planet. Inter, pp 3-4, vol. 172
Liao, X. and Zhang, K Inertial oscillation, inertial wave and initial value problem in rotating annular channels, Geophys. Astrophys. Fluid Dyn, pp 199 - 222, vol. 103
Liao, X. and Zhang, K A new integral property of inertial waves in rotating fluid spheres. , Proc R. Soc. Lond, pp 1075-1091, vol. 465
Zhan, X., Liao, X., R. Zhu and Zhang, K Convection in rotating annular channels heated from below: Part 3. Experimental boundary conditions, Geophys. Astrophys. Fluid Dyn. , pp 443-466, vol. 103
Zhang, K. and Liao, X The onset of convectionrnin rotating circular cylinders with experimental boundary conditions. , J. Fluid Mech, pp 63-73, vol. 622

2008

Chan, K. H., Liao, X. and Zhang, K Multilayered solar interface dynamos: from a Cartesian kinematic dynamo to a spherical dynamic dynamo, Proceedings of the International Astronomical Union, Cambridge University Press, pp 22-32, vol. 247
Chan, K., Zhang K., L. Li and X. Liao On the effect of an electrically heterogeneous lower mantle on planetary dynamos , Phys. Earth Planet. Inter, pp 204-210, vol. 169
Chan, K., X. Liao and Zhang K Three-dimensional multilayered spherical dynamic interface dynamo using the Malkus-Proctor formulation, Astrophy. J, pp 1392--1403, vol. 682
Dai, Z., Zhang K., G. Schubert and X. Liao Simulations of nonlinear pore-water convection in spherical shells, Phys. of Fluids, pp 026601, vol. 20
Dai, Z., Zhang K., Liao, X. and Schubert, G Hydrothermal convection in moderately thin spherical shells, Phy. Rev. Lett, pp 028501, vol. 101
Li, L., X. Liao, K. Chan and K. Zhang Linear and nonlinear instabilities in rotating cylindrical Rayleigh-Benard convection, Phys. Rev. E
Li, L., X. Liao and Zhang, K Countertraveling waves in rotating Rayleigh-Benard convection, Phys. Rev. E, pp 027301, vol. 77
Liao, X. and Zhang K. On viscous decay factors for spherical inertial modes in rotating planetary fluid cores: comparison between asymptotic and numerical analysis , Phys. Earth Planet. Inter, pp 211-219, vol. 169
Liao, X. and Zhang K The mathematical problem of inertial waves in rapidly rotating planets and stars, AMS/IP Studies in Advanced Mathematics, pp 831-860, vol. 42
Zhang, K. and Liao, X On the initial value problem in a rotating circular cylinder, J. Fluid Mech, pp 425--443, vol. 610

2007

Zhang, K., Liao, X. and Busse, F.H Asymptotic theory of inertial convection in a rotating cylinder, J. Fluid Mech, pp 449-471, vol. 575
Chan, K.H., Zhang, K., Li, L. and Liao, X A new generation of convection-driven spherical dynamos using EBE finite element method, Phys. Earth Planet. Inter. , pp 251-265, vol. 163
Feng, T., Liao, X. and Zhang, K A quasi-geostrophic convection model for planetary systems using a domain decomposition method, Phys. Earth Planet. Inter. 163:266-282, pp 266-282, vol. 163
Gibbons, S.J., Gubbins, D. and Zhang K Convection in rotating spherical fluid shells with inhomogeneous heat flux at the outer boundary, Geophys. Astrophys. Fluid Dyn, pp 347, vol. 347 - 370
Liao, X., Feng T., and Zhang, K On the saturation and temporal variation of mean zonal flows: an implication for equatorial jets on giant planets, Astrophys. J, pp L41-L44 , vol. 666
Liao, X., Zhang, K. and Chang, Y Nonlinear torsional oscillations in rotating systems, Phys. Rev. Lett, pp 1-4, vol. 98:094501
Roberts, P.H., Schubert, G., Zhang, K., Liao X. and Busse, F.H. Instabilities in a fluid layer with phase changes, Physics of the Earth and Planetary Interiorsrn, pp 147-157, vol. 165
Zhang, K Earth's core convection, Encycl. Geomagnetism and Paleomagnetism, Springer, pp 80-82
Zhang, K Equilibration of generated magnetic field: weak and strong-field dynamo, Encycl. Geomagnetism and Paleomagnetism, Springer, pp 262-263
Zhang, K. and Liao, X Magnetoconvection, Encycl. Geomagnetism and Paleomagnetism, Springer, pp 630-632
Zhang, K., Liao, X. and Busse, F.H Asymptotic solutions of convection in rapidly rotating non-slip spheres, J. Fluid Mech, pp 371-380, vol. 578
Zhang, K., Liao, X. and Zhu, R Nonlinear convection in rotating convection: Slip-stick travelling waves, Phys. Review E, pp 055302(R), vol. 75

2006

Chan, K., Zhang, K.and Zou, J Spherical interface dynamos: mathematical theory, finite element approximation, and application, SIAM J. Numerical Analysis, pp 1877-1902, vol. 44
Chang, Y., Liao X. and Zhang, K Convection in rotating annular channels heated from below: Part 2 Transition to turbulence, Geophys.Astrophys. Fluid Dyn, pp 215-241, vol. 100
Liao, X. and Zhang, K On the convective excitation of torsional oscillations in rotating systems, Astrophys. J, pp L113-116, vol. 638
Liao, X., Zhang, K. and Chang, Y On boundary-layer convection in a rotating fluid layer, J. Fluid Mech, pp 375-384, vol. 549
Zhang, K. and Schubert, G Comparison of terrestrial and solar dynamos, Rep. Prog. Phys, pp 1581-1605, vol. 69
Zhang, K., Liao, X., Zhan, X. and Zhu, R Convective instabilities in a rotating vertical Hele-Shaw cell, Phys. of Fluids, pp 1-10, vol. 18:124102
Zhang, P., Gilbert, A.D. and Zhang, K Nonlinear dynamo action in rotating convection and shear, J. Fluid Mech, pp 25-49, vol. 546

2005

Busse, F.H., Zhang, K. and Liao, X On slow inertial waves in the solar convection zone, Astrophys. J, pp L171-L174, vol. 631
Li.,L., Zhang P., Liao, X. and Zhang, K Multiplicity of nonlinear thermal convection in a spherical shell, Phys. Review, pp 1-9, vol. E 71:016301
Liao, X. Zhang, K. and Feng, T On thermal instabilities and differential rotation in rapidly rotating stars: A new quasi-geostrophic approximation, Astrophys. J, pp 518-528, vol. 631
Liao, X., Zhang, K. and Chang, Y Convection in rotating annular channels heated from below: Part 1 Linear stability and weakly nonlinear mean flows, Geophys.Astrophys. Fluid Dyn, pp 445-465, vol. 99
Liao, X., Zhang, K. and Gubbins, D A multi-layered kinematic dynamo model: implications of a stratified upper layer in the Earth's core, Geophys. Astrophys. Fluid Dyn, pp 377-395, vol. 99
Zhang, K., Liao, X. and Schubert G Pore water convection within carbonaceous chondrite parent bodies: Temperature-dependent viscosity and flow structure, Phys. Of Fluids, pp 1-12, vol. 17:086602

2004

Zhang, K. and Liao, X A new asymptotic method for the analysis of convection in a rapidly rotating sphere, J. Fluid Mech, pp 319-346, vol. 518
Zhang, K., Liao, X. and Earnshaw, P On inertial waves and oscillations in a rapidly rotating fluid spheroid, J. Fluid Mech, pp 1-40, vol. 504
Chan, K.H., Liao, X., Zhang, K. and Jones, C.A Non-axisymmetric spherical interface dynamos, Astronomy and Astrophysics, pp L37-L40, vol. 423
Schubert, G., Chan, K. Liao, X. and Zhang, K Planetary dynamos: effects of electrically conducting flows overlying turbulent regions of magnetic field generation, Icarus, pp 305-315, vol. 172
Zhang, K. and Liao, X The Poincare equation: a new polynomial and its unusual properties, J. Mathematical Physics, pp 4777-4790, vol. 45
Zhang, K., Chen, D. and Jones C An incompressible stratified fluid model of Comet Shoemaker-Levy 9's collision with Jupiter, C. Astron. and Astrophys, pp 176-185, vol. 45
Zhang, K., Liao, X. and Schubert, G A sandwich interface dynamo: linear dynamo waves in the Sun, Astrophys. J, pp 468-480, vol. 602
Zhang, K., Weeks, M. and Roberts, P.H Effect of electrically conducting walls on rotating magnetoconvection, Physics of Fluid, pp 2023-2032, vol. 16
Zhang, P. and Zhang, K Vacillating flows between two differentially rotating spheres, FJ Applied Mathematics, pp 1-24, vol. 14(1)

2003

Jones, C.A., Soward, A.M. and Zhang, K Edited Earth's Core and Lower Mantle, A M Soward and M Ghil, 'The Fluid Mechanics of Astrophysics and Geophysics, Taylor and Francis, London, New York', pp VII+218pp, vol. 11
Young, E.D., Zhang, K. and Schubert, G Conditions for pore water convection within carbonaceous chondrite parent bodies, Earth and Planetary Science Letter, pp 249-259, vol. 213
Zhang, K. and Liao, X The kinematic theory of solar dynamo, C J Astron Astrophys, pp 12-32, vol. 3
Zhang, K., Chan, K.H., Zou, J., Liao, X. and Schubert, G A three-dimensional spherical nonlinear interface dynamo, Astrophys. J, pp 663-679, vol. 596
Zhang, K., Chan, K.H., Zou, J., Liao, X. and Schubert, G.A Three-dimensional spherical nonlinear interface dynamo, Astrophys J 596, pp 663-679
Zhang, K., Liao, X. and Li, L Differential rotation driven by precession, Celestial Mechanics and Dynamical Astronomy, pp 39-51, vol. 87
Zhang, K., Liao, X. and Schubert, G Non-axisymmetric instabilities of a toroidal magnetic field, Astrophys J, pp 1124-1137, vol. 36

2002

Chen, X. and Zhang, K Nonlinear convection in a rotating annulus with a finite gap, Geophys and Astrophys Fluid Dyn, pp 499-518, vol. 96
Liao, X. and Zhang, K On multiple jet flows in Jupiter's atmosphere, Acta Astronomica sinicaVOL:43, pp 225-235
Liao, X., Zhang, K. and Earnshaw, P On the viscous damping of inertial oscillation in planetary fluid interiors, Phys Earth Planet Inter, pp 125-136, vol. 128
Weeks, M. and Zhang, K Thermal generation of Alfven waves in oscillatory magnetoconvection: diffusively modified modes, Geophys and Astrophys Fluid Dyn, pp 405-424, vol. 96
Wicht, J., Jones, C.A. and Zhang, K Instability of zonal flows in rotating spherical shells: An application to Jupiter, Icarus, pp 425-435, vol. 155
Zhang, K. and Gubbins, D Convection-driven hydromagnetic waves in planetary fluid cores, J Mathematical and Computer Modelling, pp 389-401, vol. 36
Zhang, K. and Schubert, G From penetrative convection to teleconvection, Astrophys J, pp 461-476, vol. 572
Zhang, P., Liao, X. and Zhang, K Patterns in spherical Rayleigh-Benard convection, Phys Rev E, pp 55203-8, vol. 66

2001

Chan, K.H., Zhang, K., Zou, J. and Schubert, G A nonlinear vacillating dynamo induced by an electrically heterogeneous mantle, Geophy. Res. Lett, pp 4411-4414, vol. 28
Chan, K.H., Zhang, K., Zou, J. and Schubert, G A nonlinear, 3-D spherical $\alpha^2$ dynamo using a finite element method, Phys. Earth Planet. Inter, pp 35-50, vol. 128
Christensen, U.R. et al and Zhang, K A numerical dynamo benchmark, Phys. Earth Planet. Inter, pp 125-136, vol. 128
Jones, C.A., Zhang, K. and Soward, A.M. (edi.) Dynamics and Magnetic Fields of the Earth's and Planetary Interiors, Elselvier
Schubert, G. and Zhang, K Spherical oscillatory alpha dynamo induced by magnetic coupling between a fluid shell and an inner electrically conducting core, Astrophys. J, pp L149-L151, vol. 532
Schubert, G. and Zhang, K Effects of an electrically conducting inner core on planetary and stellar dynamos, Astrophys. J, pp 930-942, vol. 557
Zhang, K. and Schubert, G Teleconvection: Remotely driven thermal convection in rotating stratified spherical layers, Science, vol. 290
Zhang, K., Earnshaw, P., Liao, X. and Busse, F.H On inertial waves in a rotating fluid sphere, Journal of Fluid Mechanics, pp 103-119, vol. 437

2000

Roberts, P.R. and Zhang, K Generation of thermal Alfven waves by magnetoconvection, J. Fluid Mech. , pp 201-223, vol. 420
Schubert, G. and Zhang, K Spherical Oscillatory alpha^2 Dynamo Induced by Magnetic Coupling Between a Fluid Shell and an Inner Electrically Conducting Core: Relevance to the Solar Dynamo, Astrophys. J, pp L149-L151, vol. 532
Zhang, K. and Gubbins, D Is the Geodynamo Process Intrinsically Unstable?, Geophysical Journal International, pp F1-F4, vol. 140
Zhang, K. and Gubbins, D Scale disparities and magnetohydrodynamics in the Earth's core, Phil. Trans. R. Soc. Lond, pp 899-920, vol. 358
Zhang, K. and Schubert, G Magnetohydrodynamics in rapidly rotating spherical systems, Ann. Rev. Fluid Mech, pp 409-443, vol. 32

1999

Sarson, G.R., Jones, C.A. and Zhang, K Dynamo action in a uniform ambient field, Physics of the Earth and Planetary Interiors, pp 47-68, vol. 111
Zhang, K Nonlinear magnetohydrodynamic convective flows in the Earth's fluid core, 'Phys. Earth Planet. Int.,', pp 93-103, vol. 111
Zhang, K., Chen, C. and Greed, G Finite-amplitude convection rolls with integer wavenumbers, Geophysical and Astrophysical Fluid Dynamics, pp 264-296, vol. 90 No. 3-4

1998

Bassom, A.P. and Zhang, K Finite amplitude thermal inertial waves in a rotating fluid layer, Geophysical and Astrophysical Fluid Dynamics, pp 193-214, vol. 87 No. 3-4
Zhang, K. and Greed, G.T Convection in rotating annulus: An asymptotic theory and numerical solutions, Phys. Fluids, pp 2396-2404, vol. 10 No. 9
Zhang, K. and Roberts, P.H The dynamical effects of hyperviscosity on numerical geodynamo models, Geophysical and Astrophysical Fluid Dynamics, pp 215-223, vol. 88 No. 3-4
Zhang, K., Jones, C.A. and Sarson, G.R The dynamical effects of hyperviscosity on numerical geodynamo models, Studia Geophysica et Geodaetica, pp 247-253, vol. 42

1997

Greed, G.T. and Zhang, K An asymptotic theory for convection driven inertial waves in a rotating annulus, Geophysical and Astrophysical Fluid Dynamics, pp 75-101, vol. 86
Sarson, G.R., Jones, C.A., Zhang, K. and Schubert, G Magnetoconvection dynamos and the magnetic fields of Io and Ganymede, Science, pp 1106-1108, vol. 276
Schubert, G. and Zhang, K Foundering of the lithosphere at the onset of subduction, Geophysical Research Letters, pp 1527-1529, vol. 24
Zhang, K. and Busse, F.H Convection in spherical fluid shells with an outer crust of variable thickness, Combust. Sci. Techno, pp 171-200, vol. 130
Zhang, K. and Jones, C.A The effect of hyperviscosity on geodynamo models, Geophysical Research Letters, pp 2869-2872, vol. 24
Zhang, K. and Roberts, P.H Thermal inertial waves in a rotating fluid layer: Exact and asymptotic solutions, Physics of Fluids, pp 1980-1987, vol. 9
Zhang, K. and Schubert, G Linear penetrative spherical rotating convection, Journal of the Atmospheric Sciences, pp 2509-2518, vol. 54

1996

Chen, D. and Zhang, K An analytical model of the comet's collision with Jupiter, 'Earth, Moon and Planets', pp 23-32, vol. 73
Greed, G.T. and Zhang, K Two- and three-dimensional linear convection in a rotating annulus, Geophysical and Astrophysical Fluid Dynamics, pp 23-34, vol. 82
Schubert, G., Zhang, K., Kivelson, M.G. and Anderson, J.D The magnetic-field and internal structure of Ganymede, Nature, pp 544-545, vol. 384
Zhang, K Convection, instability and the changing of the Earth's magnetic-field, Surveys in Geophysics, pp 219-224, vol. 17
Zhang, K. and Gubbins, D Convection in a rapidly rotating spherical fluid shell with an inhomogeneous temperature boundary-condition at finite Prandtl number, Physics of Fluids, pp 1141-1148, vol. 9
Zhang, K. and Jones, C.A On small Roberts number magnetoconvection in rapidly rotating systems, Proc. Roy. Soc. Lond. A, pp 981-995, vol. 452
Zhang, K. and Schubert, G Penetrative convection and zonal flow on Jupiter, Science, pp 941-943, vol. 273
Zhang, K., Jones, C.A. and Chen, D Estimates for the effective electrical-conductivity of the core in the interior of Jupiter and Saturn, Earth, Moon and Planets, pp 221-236, vol. 73

1995

Drew, S.J., Jones, C. A. and Zhang, K Compressible convection in a rapidly rotating spherical shell, Geophys. and Astrophys. Fluid Dyn, pp 241-254, vol. 80
Zhang, K On coupling between thePoincare equation and the heat equation: non-slip boundary condition, J. Fluid Mech, pp 239-256, vol. 284
Zhang, K Spherical shell rotatingconvection in the presence of toroidal magnetic field, Proc R. Soc. Lond, pp 245-268, vol. 448
Zhang, K. and Busse, F. H On hydromagnetic instabilitiesdriven by the Hartmann boundary layer in a rapidly rotatingsphere, J. Fluid Mech, pp 363-283, vol. 304
Zhang, K. and Fearn, D Hydromagnetic wavesin a rotating spherical shell generated by poloidal decay modes, Geophys. and Astrophys. Fluid Dyn, pp 193-209, vol. 81
Zhang, K. and Schubert, G Spatial symmetry\r\nbreaking in rapidly rotating convective spherical shells, Geophysical Research Letters, pp 1265-1268, vol. 22

1994

Bassom, A. P. and Zhang, K Stronglynonlinear convection cells in a rapidly rotating fluid layer, Geophys. and Astrophys. Fluid Dyn, pp 223-238, vol. 76
Zhang, K On coupling between thePoincare equation and the heat equation, J. Fluid Mech, pp 211-229, vol. 268
Zhang, K. and Fearn, D Hydromagnetic wavesin a rotating spherical shell generated by toroidal decay modes, Geophys. and Astrophys. Fluid Dyn, pp 123-147, vol. 77
Zhang, K. and Jones, C. A. Convective motions in the Earth's fluid core, Geophysical Research Letters, pp 1939-1942, vol. 21

1993

Gubbins, D. and Zhang, K Symmetryproperties of the dynamo equations for paleomagnetism andgeomagnetism, Phys. Earth Planet. Inter, pp 225-241, vol. 75
Zhang, K Spherical inertial oscillation and convection, M. Proctor , Theory of Solar and Planetary Dynamos,Cambridge University Press, pp 339-346
Zhang, K On equatorially trapped boundary inertial waves, J. Fluid Mech, pp 203-217, vol. 248
Zhang, K. and Fearn, D How strong is theinvisible component of the magnetic field in the Earth's core?, Geophysical Research Letters, pp 2083-2088, vol. 20
Zhang, K. and Gubbins, D Convection in a rotating sphericalfluid shell with inhomogeneous temperature boundary conditions at infinite Prandtl number, J. Fluid Mech, pp 209-232, vol. 250
Zhang, K. and Gubbins, D Nonlinear aspects of core-mantle interaction, Geophysical Research Letters, pp 2969-2972, vol. 20
Zhang, K. and Jones, C. A The influence of Ekman boundary layers on rotating convection, Geophys. and Astrophys. Fluid Dyn, pp 145-162, vol. 71

1992

Zhang, K Convection in a rapidly rotatingspherical fluid shell at infinite Prandtl number: Transition tovacillating flows, Phys. Earth Planet. Inter, pp 236-248, vol. 72
Zhang, K Rotating spherical convectionwith applications to planetary systems, D. B. Stone and Roncorn S. K, Flow and Creep in the Solar System: Observations, Modeling and Theory, Kluwer Academic Publishers, pp 83-96
Zhang, K. and Gubbins, D. On convection inthe Earth's core forced by lateral temperature variations in thelower mantle, Geophysical Journal International, pp 247-255, vol. 108

1991

Gubbins, D., Zhang, K. and Hutchson, K Dynamics of the secular variation, Geophys. and Astrophys. Fluid Dyn, pp 396, vol. 60
Zhang, K Vacillatory convection in arotating spherical fluid shell at infinite Prandtl number, J. Fluid Mech, pp 607-628, vol. 228
Zhang, K Convection in a rapidly rotatingspherical fluid shell at infinite Prandtl number: steadilydrifting rolls, Phys. Earth Planet. Inter, pp 156-169, vol. 68
Zhang, K Parameterized rotating convectionfor core and planetary atmosphere dynamics, Geophysical Research Letters, pp 685-689, vol. 18

1990

Zhang, K Nonlinear MHD dynamos in rotatingspherical shells, in Core-Mantle Interactions, Surveys in Geophysics, pp 329-353, vol. 11
Zhang, K. and Busse, F. Generation of magnetic fields by convection in a rotating spherical fluid shell of infinite Prandtl number, Phys. Earth Planet. Inter, pp 208-222, vol. 59

1989

Zhang, K. and Busse, F Convection drivenmagnetohydrodynamic dynamos in rotating spherical shells, Geophys. and Astrophys. Fluid Dyn, pp 97-116, vol. 49
Zhang, K., Busse, F. and Hircshing, W. Numerical models in the theory of geomagnetism, F.J. Lowes et al, Geomagnetism and paleomagnetism,Kluwer Academic Publishers, pp 347-358

1988

Busse, F. and Zhang. K Dynamics of the Earth's core and the geodynamo, Smylie, D. E. and Hide, R, Structure and Dynamics of Earth's Deep Interior, pp 113-119
Zhang, K. and Busse, F Finite amplitude convection and magnetic field generation in a rotating spherical shell, Geophys. and Astrophys. Fluid Dyn, pp 33-53, vol. 44

1987

Zhang, K. and Busse, F On the onset ofconvection in rotating spherical shells, Geophys. and Astrophys. Fluid Dyn, pp 119-147, vol. 39

Showing 141 publications from UDB2.