11th March Japanese tsunami
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| Revision as of 22:20, 19 February 2012 Popinet (Talk | contribs) (Added KML files) ← Previous diff |
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| journal = {Natural Hazards and Earth System Sciences}, | journal = {Natural Hazards and Earth System Sciences}, | ||
| year = {2012}, | year = {2012}, | ||
| + | volume = {12}, | ||
| + | number = {4}, | ||
| + | pages = {1213-1227}, | ||
| + | doi = {10.5194/nhess-12-1213-2012}, | ||
| url = {http://gfs.sf.net/papers/popinet2012.pdf} | url = {http://gfs.sf.net/papers/popinet2012.pdf} | ||
| } | } | ||
Current revision
A more recent version of these simulations is presented in
S. Popinet - Adaptive modelling of long-distance wave propagation and fine-scale flooding during the Tohoku tsunami
- Natural Hazards and Earth System Sciences 12(4):1213-1227, 2012
- Bibtex
Contents |
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Google Earth KML files for the results in the paper above (Figure 15)
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Original simulations (March 2011)
- Initial simulation using a crude source model based on CMT solution.
- Refined simulation using a detailed seismic inversion.
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Inundation maps
These maps were generated directly from the results of the refined simulation. The spatial resolution in flooded areas is automatically adapted down to ~500 m. Note that the topography is defined using the ETOPO-1 data (1 arcminute i.e. ~1.8 km). The results below could be improved using higher-resolution topographic data (e.g. STRM).
In all Gerris results, the colorscale encodes the log of the maximum wave elevation reached over 5 hours.
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