Seismic Wave Propagation Through Random Media: Monte Carlo Simulation Based on the Radiative Transfer Theory

★★★★★ 4.9 22 reviews

US$27.19
Price when purchased online
Free shipping Free 30-day returns

Sold and shipped by ogadaikedesigners.com
We aim to show you accurate product information. Manufacturers, suppliers and others provide what you see here.
US$27.19
Price when purchased online
Free shipping Free 30-day returns

How do you want your item?
You get 30 days free! Choose a plan at checkout.
Shipping
Arrives Jul 18
Free
Pickup
Check nearby
Delivery
Not available

Sold and shipped by ogadaikedesigners.com
Free 30-day returns Details

Product details

Management number 233577001 Release Date 2026/06/27 List Price US$27.19 Model Number 233577001
Category

The solid Earth's medium is heterogeneous over a wide range of scales. Seismological observations, including envelope broadening with increasing distance from an earthquake source and the excitation of long-lasting coda waves, provide a means of investigating velocity inhomogeneities in the lithosphere. These phenomena have been studied primarily using radiative transfer theory with random medium modelling. This book presents the mathematical foundations of scalar- and vector-wave scattering in random media, using the Born or Eikonal approximation, which are useful for understanding random inhomogeneity spectra and the scattering characteristics of the solid Earth. A step-by-step Monte Carlo simulation procedure is presented for synthesizing the propagation of energy density for impulsive radiation from a source in random media. Simulation results are then verified by comparison with analytical solutions and finite-difference simulations. Presenting the latest seismological observations and analysis techniques, this is a useful reference for graduate students and researchers in geophysics and physics. Read more


Correction of product information

If you notice any omissions or errors in the product information on this page, please use the correction request form below.

Correction Request Form

Customer ratings & reviews

4.9 out of 5
★★★★★
22 ratings | 9 reviews
How item rating is calculated
View all reviews
5 stars
89% (20)
4 stars
1% (0)
3 stars
0% (0)
2 stars
0% (0)
1 star
10% (2)
Sort by

There are currently no written reviews for this product.