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Description A map of Australasia, showing Australian permanent broadband seismic stations (triangles) and the five sources used in this study (lower‐hemisphere projections displayed). Green triangles indicate...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Results of the station selection sensitivity test using real data for event #4: (a) with 1‐D synthetics and (b) with 3‐D synthetics. The global CMT solution is included for comparison.
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description (a) Exemplary waveforms from synthetic test A for event #2 with 20 per cent noise added (left) and 80 per cent noise added (right) to the synthetic data (the same format as in Fig. 3). (b) As Fig....
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description The solution mechanisms and details from inversion of real data for event #4 using 1‐D synthetics (left column) and 3‐D synthetics (right column) and comparison with the global CMT mechanism (top...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description (a) Results of synthetic test B (depth sensitivity test) for event #1 using synthetic data from the 1‐D model, with 20 per cent noise added (waveforms shown in Fig. 3). Goodness of fit is plotted...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Results of the station selection sensitivity test using real data for event #5: (a) with 1‐D synthetics and (b) with 3‐D synthetics. The global CMT solution is included for comparison.
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Results of a 20‐parameter search by perturbing starting model–ak135 (black lines–S‐wave velocity on the left, P‐wave velocity on the right). Coloured lines show models tested and their average...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Sample waveforms from the inversion of ‘real data’ (the observed waveforms) for event #2 using a set of eight stations (three shown), with (a) (left) 1‐D synthetics and (b) (right) 3‐D synthetics....
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description The solution mechanisms and details from inversion of real data for event #5 using 1‐D synthetics (left column) and 3‐D synthetics (right column) and comparison with the global CMT mechanism (top...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Example results of synthetic test A for event #1 with noise added: moment tensor inversion of synthetic data generated using the 1‐D model, with Green's functions generated using the same model....
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Same as Fig. 7, but for event #4: the results of synthetic test of: (a) depth sensitivity and (b) station selection sensitivity, using synthetic data (no noise added). Synthetic data are produced...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Results of the station selection sensitivity test (synthetic test C; see Fig. 5 for details) using ‘real data’ (the observed waveforms) for event #2: (a) with 1‐D synthetics and (b) with 3‐D...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description The solution mechanisms and details from MT inversion of the observed waveforms for event #2 using 1‐D synthetics (left column) and 3‐D synthetics (right column) and comparison with the global CMT...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description (a) As Fig. 4(a); the results of synthetic test B (depth sensitivity) for event #3 using synthetic data with 50 per cent noise added. (b) As Fig. 4(b); the results of synthetic test C (station...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description Sample waveforms from the inversion of real data (black lines) for event #4 using a set of eight stations (three shown), with (a) 1‐D synthetics (red lines) and (b) 3‐D synthetics (red lines)....
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International -
Description The results of synthetic test of: (a) depth sensitivity; (b) station selection sensitivity, for event #2 using synthetic data (no noise added). Synthetic data are produced using the 3‐D model and...
Article Title: Seismic moment tensor inversion using a 3‐D structural model: applications for the Australian region
Publication Title: Geophysical Journal International