The Earthquake Engineering Online ArchiveThe propagation of Love waves across non-horizontally layered structuresLysmer, John; Drake, Lawrence A. UCB/EERC-70/06, Earthquake Engineering Research Center, University of California, Berkeley, 1970-10, 33 pages (305.2/L9/1970) A finite element technique is developed to study the propagation of Love waves across non-horizontally layered structures. Previous results of other authors are confirmed. Detailed models of a continental boundary and of a structure including a slab of lithosphere dipping downward at an angle of 45 degrees are analyzed. For incident fundamental Love mode motion, at a period of 25 sec, on either side of the model of a continental boundary, the total energy in all the reflected modes is found to be less than 0.1 percent of the incident energy, while the energy in the transmitted higher modes is 48 percent of the incident energy. These results are strikingly different from the results for previous models of a continental boundary. For incident fundamental Love mode motion, at a period of 25 sec, on the oceanic side of the model including the dipping slab, the total energy in the reflected modes is found to be approximately 1 percent of the incident energy, and that in the transmitted modes, 36 percent of the incident energy. For incident fundamental Love mode motion, at a period of 25 sec, on the "shallow sea" side of the two models, the total energy in the reflected modes is found to be approximately 3 percent of the incident energy, and that in the transmitted modes, 34 percent of the incident energy. Available online: http://nisee.berkeley.edu/documents/EERC/EERC-70-06.pdf (1 MB) |
