Shallow parts in a sloping bottom toward the coast can be expected to act as a waveguide, in partial analogy with optical waveguiding. We will present numerical simulations that convincingly show that large enhanced wave amplification happens for tsunami waves in certain geometries and bathymetries. Since this is even the case for shallow regions that have cross sections of the order of badly resolved numerical scales, this phenomenon may at least partly explain that tsunami heights and coastal effects as observed in reality show such high variability along the coastline. This report, following [1], supports a more concise publication that will be published soon [2]. In this report we will provide detailed results of extensive simulations u...
Large landslide-tsunamis are caused by mass movements such as landslides and rock falls impacting in...
Numerical simulations were generated using a nonlinear shallow-water model of velocity potential to ...
Tsunami waves travel across oceans with quite small vertical displacements, but shoal up dramaticall...
Numerical modeling of tsunami propagation at the coastal zone has been a daunting task since high ac...
We aim to improve the techniques to predict tsunami wave heights along the coast. The modeling of ts...
Numerical modeling of tsunami propagation at the coastal zone has been a daunting task since high ac...
An effective boundary condition (EBC) is introduced as a novel technique for predicting tsunami wave...
Tsunamis belong to a class of geophysical problems with vastly different spatial scales of interest....
In this study, we considered the accurate calculation of far-field tsunami waveforms by using the sh...
Large landslide-tsunamis are caused by mass movements such as landslides or rock falls impacting int...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
ce od f th to i mpo result in undesirable errors, a general benchmark test has been undertaken to pr...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
A newly developed computer model, which solves the horizontal two-dimensional Boussinesq equations u...
This thesis uses numerical simulations to assess the most suitable model type for simulating dispers...
Large landslide-tsunamis are caused by mass movements such as landslides and rock falls impacting in...
Numerical simulations were generated using a nonlinear shallow-water model of velocity potential to ...
Tsunami waves travel across oceans with quite small vertical displacements, but shoal up dramaticall...
Numerical modeling of tsunami propagation at the coastal zone has been a daunting task since high ac...
We aim to improve the techniques to predict tsunami wave heights along the coast. The modeling of ts...
Numerical modeling of tsunami propagation at the coastal zone has been a daunting task since high ac...
An effective boundary condition (EBC) is introduced as a novel technique for predicting tsunami wave...
Tsunamis belong to a class of geophysical problems with vastly different spatial scales of interest....
In this study, we considered the accurate calculation of far-field tsunami waveforms by using the sh...
Large landslide-tsunamis are caused by mass movements such as landslides or rock falls impacting int...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
ce od f th to i mpo result in undesirable errors, a general benchmark test has been undertaken to pr...
The shallow water equations are a commonly accepted approximation governing tsunami propagation. Num...
A newly developed computer model, which solves the horizontal two-dimensional Boussinesq equations u...
This thesis uses numerical simulations to assess the most suitable model type for simulating dispers...
Large landslide-tsunamis are caused by mass movements such as landslides and rock falls impacting in...
Numerical simulations were generated using a nonlinear shallow-water model of velocity potential to ...
Tsunami waves travel across oceans with quite small vertical displacements, but shoal up dramaticall...