Your search keyword '"Jianqiao Xu"' showing total 202 results

201. Co-seismic change of length of day based on the point dislocation theory for a SNREI Earth.

Author

Jiangcun Zhou, Sun, Wenke, Heping Sun, Jianqiao Xu, and Xiaoming Cui

Subjects

*DISLOCATIONS in crystals, *SUMATRA Earthquake, 2004, *DEFORMATIONS (Mechanics), *TRACE elements, *COMPARATIVE studies, *SEISMIC waves, *SHEAR (Mechanics), *NUMERICAL functions

Abstract

We developed a new approach for computing the changes in the length of day (LOD) due to earthquakes from both shear- and tensile-type faults. This approach was based on the point dislocation theory for a SNREI Earth, which was validated by comparing our results with the ones obtained by the normal mode method. We defined two numerical functions that vary with hypocenter depth. These functions allow us to compute the co-seismic change of the trace of the Earth's inertia tensor, and hence the co-seismic LOD change. For future applications, by adding a trace term, we corrected Lambeck's formulas (Lambeck, 1980), which are being commonly used for computing co-seismic LOD change. Finally, the new approach was used to compute the co-seismic LOD change from 1977 to 2011. The results show that the co-seismic trace and the co-seismic J2 changes contribute to the LOD change with the same magnitude (Gross and Chao, 2006). This means that, unlike other deformation mechanisms, the trace term cannot be neglected when modeling the co-seismic LOD change. The earthquakes from 1977 to 2011 decreased the LOD by about 12 µs, and the rate of decrease was enhanced after the 2004 Sumatra earthquake due to several large earthquakes. [ABSTRACT FROM AUTHOR]

Published

2014

202. Investigation of the time variability of diurnal tides and resonant FCN period.

Author

Xiaoming Cui, Heping Sun, Rosat, Séverine, Jianqiao Xu, Jiangcun Zhou, and Ducarme, Bernard

Subjects

*TSUNAMIS, *TIDES, *SUPERCONDUCTIVITY, *GRAVIMETERS (Geophysical instruments), *BAYESIAN analysis, *PARAMETERS (Statistics), *NUTATION

Abstract

The time variability of diurnal tides was investigated by analyzing gravity observations from global superconducting gravimeter (SG) stations with running time intervals. Through least-square and Bayesian approaches, FCN resonance parameters were estimated for each data section after obtaining the tidal parameters of mainly diurnal tidal waves. The correlation of the time variation in diurnal tidal waves and FCN period was discussed. For comparison, a similar method was used to analyze VLBI observations to study the time variability of nutation terms and FCN period. The variation trend of the FCN period totally depends on the Ψ1 wave in tidal gravity and on the retrograde annual term in nutation. We observed a similar variation trend in the FCN periods obtained from different SG stations worldwide and VLBI observations. The relation between diurnal tides and LOD variations is discussed and the possible mechanisms of the decadal variation in FCN periods were discussed. [ABSTRACT FROM AUTHOR]

Published

2014