Add to ORKGResults of testing the effectiveness of the theory of precessional dynamos in the generation of the magnetic fields of the planets are presented. It is shown that the magnetic state of Earth and of the planets Mars, Jupiter, and Venus can be satisfactorily described by the formula H(i) = H(3) V(i)/V(3) T(3)/T(i) omega(i)/omega(3) sin(alpha 1)/sin(alpha 2) where H, V, T, omega and alpha are the dipole fields, volumes of liquid cores, periods of rotation, rates of precession, and angles between precession vector and angular rotation, respectively, for the planets and earth. The v(i) corresponds to known models of the internal structure. It is shown that the magnetic state of Mercury satisfies this formula if the dynamic flattening of the plan...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
Of the terrestrial planets, Earth and probably Mercury possess substantial intrinsic magnetic fields...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
The past decade has seen a wealth of new data, mainly from the Galilean satellites and Mars, but als...
The past several years have seen dramatic developments in the study of planetary magnetic fields, in...
As a consequence of the smallness of the electronic fine structure constant, the characteristic time...
The theory of planetary dynamos and its applications to the observed phenomena of planetary magnetis...
The theory of planetary dynamos and its applications to the observed phenomena of planetary magnetis...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
Of the terrestrial planets, Earth and Mercury have self-sustained fields while Mars and Venus do not...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
International audienceOf the terrestrial planets, Earth and Mercury have self-sustained fields while...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
International audienceOf the terrestrial planets, Earth and Mercury have self-sustained fields while...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
Of the terrestrial planets, Earth and probably Mercury possess substantial intrinsic magnetic fields...
Since 1973 space missions carrying vector magnetometers have shown that most, but not all, solar sys...
The past decade has seen a wealth of new data, mainly from the Galilean satellites and Mars, but als...
The past several years have seen dramatic developments in the study of planetary magnetic fields, in...
As a consequence of the smallness of the electronic fine structure constant, the characteristic time...
The theory of planetary dynamos and its applications to the observed phenomena of planetary magnetis...
The theory of planetary dynamos and its applications to the observed phenomena of planetary magnetis...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
Of the terrestrial planets, Earth and Mercury have self-sustained fields while Mars and Venus do not...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
International audienceOf the terrestrial planets, Earth and Mercury have self-sustained fields while...
A fully three-dimensional, nonlinear, time-dependent, multi-layered spherical kinematic dynamo model...
International audienceOf the terrestrial planets, Earth and Mercury have self-sustained fields while...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
In this thesis I use a three dimensional numerical dynamo model to explore the effect of novel mater...
Of the terrestrial planets, Earth and probably Mercury possess substantial intrinsic magnetic fields...