Your search keyword '"Heijst H"' showing total 2 results

1. SP12RTS: a degree-12 model of shear- and compressional-wave velocity for Earth's mantle.

Author

Koelemeijer, P., Ritsema, J., Deuss, A., and Heijst, H.-J. van

Subjects

SHEAR waves, LONGITUDINAL waves, EARTH'S mantle, ISOTROPIC properties, THEORY of wave motion, WAVELENGTHS

Abstract

We present the new model SP12RTS of isotropic shear-wave (VS) and compressional-wave (VP) velocity variations in the Earth's mantle. SP12RTS is derived using the same methods as employed in the construction of the shear-wave velocity models S20RTS and S40RTS, and the same data types. SP12RTS includes additional traveltime measurements of P-waves and new splitting measurements: 33 normal modes with sensitivity to the compressional-wave velocity and 9 Stoneley modes with sensitivity primarily to the lowermost mantle. Contrary to S20RTS and S40RTS, variations in VS and VP are determined without invoking scaling relationships. Lateral velocity variations in SP12RTS are parametrised using spherical harmonics up to degree 12, to focus on long-wavelength features of VS and VP and their ratio R. Large-lowvelocity provinces (LLVPs) are observed for both VS and VP. SP12RTS also features an increase of R up to 2500 km depth, followed by a decrease towards the core-mantle boundary. A negative correlation between the shear-wave and bulk-sound velocity variations is observed for both the LLVPs and the surrounding mantle. These characteristics can be explained by the presence of post-perovskite or large-scale chemical heterogeneity in the lower mantle. [ABSTRACT FROM AUTHOR]

Published

2016

2. S40RTS: a degree-40 shear-velocity model for the mantle from new Rayleigh wave dispersion, teleseismic traveltime and normal-mode splitting function measurements.

Author

Ritsema, J., Deuss, A., van Heijst, H. J., and Woodhouse, J. H.

Subjects

RAYLEIGH waves, SEISMIC traveltime inversion, SPLITTING extrapolation method, SHEAR waves, KERNEL functions, SURFACE waves (Fluids), FREE earth oscillations, SEISMIC tomography, EARTH'S mantle, EARTH (Planet)

Abstract

We have developed model S40RTS of shear-velocity variation in Earth's mantle using a new collection of Rayleigh wave phase velocity, teleseismic body-wave traveltime and normal-mode splitting function measurements. This data set is an order of magnitude larger than used for S20RTS and includes new data types. The data are related to shear-velocity perturbations from the (anisotropic) PREM model via kernel functions and ray paths that are computed using PREM. Contributions to phase delays and traveltimes from the heterogeneous crust are estimated using model CRUST2.0. We calculate crustal traveltimes from long-period synthetic waveforms rather than using ray theory. Shear-velocity perturbations are parametrized by spherical harmonics up to degree 40 and by 21 vertical spline functions for a total of 35 301 degrees of freedom. S40RTS is characterised by 8000 resolved unknowns. Since we compute the exact inverse, it is straightforward to determine models associated with fewer or more unknowns by adjusting the model damping. S40RTS shares many characteristics with S20RTS because it is based on the same data types and similar modelling procedures. However, S40RTS shows more clearly than S20RTS the abrupt change in the pattern of shear-velocity heterogeneity across the 660-km phase transition and it presents a more complex patern of shear-velocity heterogeneity in the lower mantle. Utilities to visualise S40RTS and software to analyse the resolution of S40RTS (or models for different damping parameters) are made available. [ABSTRACT FROM AUTHOR]

Published

2011