Report of the IAU/IAG Joint Working Group on Theory of Earth Rotation and Validation |
|
A First Assessment of the Corrections for the Consistency of the IAU2000 and IAU2006 Precession-Nutation Models |
|
Effect of the Love numbers modeling on the precession of the non-rigid Earth |
|
A new hybrid method to improve EOP prediction |
|
Poisson terms of the rotation of the non-rigid Earth at the second order |
|
Present and future of Earth rotation models according to the findings of the IAU/IAG Joint Working Group on Theory of Earth rotation and validation |
|
Ultra-short LOD prediction from EAM using Copula-based analysis + SSA method |
|
Recent advances in precession-nutation modeling: theory and observations |
|
On the planetary terms of the IAU2000 nutation theory |
|
Empirical Corrections to Nutation Amplitudes and Precession Computed from a Global VLBI Solution |
|
How consistent are the current conventional celestial and terrestrial reference frames and the conventional earth orientation parameters? |
|
On the prediction of the Free Core Nutation |
|
Influence of the tidal variations of the angular velocity on the rotation of the non-rigid Earth |
|
Non-Rigid Earth Contributions to the Precession in Longitude and Indirect Effects on Nutations |
|
The new IAU/IAG joint working group on theory of earth rotation |
|
Effects of the observed J2 variations on the Earth's precession and nutation |
|
Precession of a two-layer Earth: contributions of the core and elasticity |
|
Non-rigid Contributions to the Precession Rate of a Two-layers Earth Model |
|
Effects of the tidal mass redistribution on the Earth rotation |
|
The consistency of the current conventional celestial and terrestrial reference frames and the conventional EOP series |
|
Report on activities of the IAU/IAG Joint Working Group on Theory of Earth Rotation |
|
Recent developments in the theory of the Earth’s precession and nutation |
|
On the minimization properties of Tisserand systems |
|
Reference Frames in Earth Rotation Theories |
|
A new empirical model for Free Core Nutation |
|
On the changes of IAU 2000 nutation theory stemming from IAU 2006 precession theory |
|
Consistency problems associated to the improvement of precession-nutation theories |
|
The goal of the IAU/IAG Joint Working Group on the Theory of Earth rotation |
|
Improvements in EOPs and baseline estimation using the future RAEGE Network |
|
A proof of the cancellation of the redistribution tidal potential effects on the rotation of an elastic Earth model |
|
Report of activities of the IAU/IAG Joint Working Group on Theory of Earth rotation |
|
The IAU/IAG Joint Working Group on Theory of Earth Rotation: scope and initial acivities (Invited) |
|
Recent developments in Earth rotation theory |
|
Towards more accurate theories of the Earth precession and nutation |
|
Influence of the inner core on the rotation of the Earth revisited |
|
Effect of the potential due to lunisolar deformations on the Earth precession |
|
Influence of the inner core geopotential variations on the rotation of the Earth |
|
To development of accurate theory of Mercury rotation by accurate description of its orbital motion |
|
Some directions of new studies in selenodynamics and selenosesy |
|
Solar tidal variations of coefficients of second harmonic of gravitational potential of Mercury |
|
Elliptical Chandler pole motions of the Earth and Mars |
|
Non-Linear Harmonic Models for some Geophysical Time Series |
|
Perturbations of the first order in Mercury rotation by accurate description of its orbital motion |
|
To analytical theory of Mercury rotation: planetary perturbations |
|
Contributions of the third degree harmonics to the nutation of a two-layer and three-layer Earth models |
|
The western drift of poles of principal equatorial axes of inertia of the Earth and Mars |
|
To development of analytical theory of rotational motion of the Moon |
|
Mechanism of secular increasing of mean gravity in Northern hemisphere and secular decreasing of mean gravity in Southern hemisphere |
|
Plane Mercury librations |
|
Semi-empirical model of free and forced Mercury librations in longitude on the data of ground radar-tracking observations |
|
Analytical theory of rotational motion of the Moon and dynamical effects caused by its liquid core |
|
Geopotential of a triaxial Earth with a rigid inner core in Andoyer canonical variables |
|
Dynamic Role of Liquid Core of Mercury in its Rotation |
|
Dynamic role of the liquid core of Mercury in its motion on Cassini's laws and in resonant librations |
|
Progress report of the IAU Working Group on Precession and the Ecliptic |
|
Nutations and precession of elastic Earth in angle-action variables |
|
Comparative Rotational Dynamics of the Moon, Mercury and Titan |
|
Division I working group on "precession and the ecliptic" |
|
On the effect of the redistribution tidal potential on the rotation of the non-rigid Earth: discrepancies and clarifications |
|
Earth, Moon, Mercury and Titan Seismicity: Observed and Expected Phenomena |
|
Mercury: Libration, Gravitational Field and Its Variations |
|
To Mercury dynamics |
|
New approach to development of Moon rotation theory |
|
Mercury resonant rotation |
|
Resonant Rotation of Two-layer Moon and Mercury |
|
New Approach to Development of Moon Rotation Theory |
|
Resonant Rotation of the Two-Layer Mercury Model |
|
Application of Poincaré's formalism to the free nutations of a three-layer Earth model |
|
Quasi-semidiurnal nutations induced by the indirect effect of the triaxiality of the Earth: rigid and non-rigid models |
|
Variational approach to the rotational dynamics of a three-layer Earth model: fluid outer core interactions |
|
Mechanisms of Earth activity forsed by external celestial bodies:energy budjet and nature of cyclicity |
|
Ordered positions of formation centers of the Earth-like planets, moons and the Sun |
|
Combination of Space Geodesy Techniques and Tide Gauge Data for Determining Vertical Crustal Movements on the Coastal Areas of Mediterranean. |
|
Influence of the triaxiality of the non-rigid Earth on the J<SUB>2</SUB> forced nutations |
|
Second Order Terms In Nutation Theory |
|
Oceanic Effects On The Free Rotation of The Earth |
|
Mediterranean and Black Sea Level Variations, 1991-2001: Altimetry, Tide Gauge Data, and Oceanographic Models |
|
New correlations of plate and plume tectonics |
|
A Fuzzy Logic Study of Weighting Scheme for Satellite-Laser-Ranging Global Tracking Network |
|
Free Frequencies for a Three Layered Earth Model |
|
Adavances in the Unified Theory of the Rotation of the Nonrigid Earth |
|
Nature and Properties of the Chandler Motion and Mechanism of its Damping and Excitation |
|
Tidal Variations of the Earth's Rotation |
|
On the rotation of a three-layers Earth model |
|
Model of the Earth with the eccentric and the moveable liquid core |
|
The CATALA campaigns: Indirect calibration technique of ENVISAT altimeter calibration |
|
Non-Integrability of the Motion of a Point Mass around a Planet of Arbitary Schape |
|
New nutation series derived from the Hamiltonian theory. |
|
Canonical treatment of dissipative forces between Earth mantle and core |
|
Applying the Hamiltonian formalism to the rotation of the non-rigid Earth. |
|
A note on the canonical character of the Stiefel-Scheifele time element. |
|
New Intermediaries for the Main Problem in Satellite Theory |
|
Longterm Predictions for Highly Eccentric Orbits |
|
New Intermediaries for the Main Problem in Satellite Theory |
|
Relative behavior of special algorithms for the numerical integration of satellite orbits |
|
Accurate analytical predictions of the tidal variations of the geopotential coefficients |
|
Encke methods in regularizing variables |
|
ACCURATE ANALYTICAL PREDICTIONS OF THE TIDAL VARIATIONS OF THE GEOPOTENTIAL COEFFICIENTS |
|
On the accurate numerical computation of highly eccentric orbits |
|
Special algorithms to limit the error growth in long-term computation of satellite orbits |
|
ON THE ACCURATE NUMERICAL COMPUTATION OF HIGHLY ECCENTRIC ORBITS |
|
Improved Bettis methods for long-term prediction. |
|
Application of spherically exact algorithms to numerical predictability in two-body problems. |
|
Reducing the error growth in the numerical propagation of satellite orbits |
|
Poincaré-similar variables including J<SUB>2</SUB>-secular effects. |
|
Extended canonical transformations increasing the number of variables. |
|
General motion of a triaxial rigid body in a Newtonian force field. |
|
A new set of canonical variables for orbit calculation. |
|
Generalized Elliptic Anomalies |
|