Add to ORKGMost of our present detailed knowledge concerning the earth's deep interior has come to us from the study of body-wave travel-time data, supplemented by the semi-empirical use of amplitude information. The use of travel-time information alone, even in areas where it can be applied, has severe limitations. Velocity reversals lead to fundamental theoretical difficulties, and discontinuities in velocity or velocity gradient lead to formidable practical difficulties. However, it is just these features of the earth that are most interesting and important in discussions of earth history, mantle composition, phase changes, and convection. The long debate over the low-velocity zone and the so-called 20° discontinuity illustrates the nature o...
The last decade has seen a large increase in the amount of high-quality data from a growing number ...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...
Most of our present detailed knowledge concerning the earth's deep interior has come to us from the...
Most of our present detailed knowledge concerning the earth's deep interior has come to us from the...
The detailed investigation of mantle structure from the dispersion of surface waves is a young but ...
A detailed numerical investigation of surface wave dispersion and particle motion associated with th...
A detailed numerical investigation of surface wave dispersion and particle motion associated with th...
New long-period dispersion data are obtained from the surface waves generated by the Alaska earthqua...
New long-period dispersion data are obtained from the surface waves generated by the Alaska earthqua...
Surface wave studies have shown that the transition region of the upper mantle, Bullen's Region C, i...
Surface wave studies have shown that the transition region of the upper mantle, Bullen's Region C, i...
Using seismic body and surface waves, the velocity structure of the Earth's mantle is determined wit...
Using seismic body and surface waves, the velocity structure of the Earth's mantle is determined wit...
Part I: Phase velocities of Love waves from five major earthquakes are measured over six great circ...
The last decade has seen a large increase in the amount of high-quality data from a growing number ...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...
Most of our present detailed knowledge concerning the earth's deep interior has come to us from the...
Most of our present detailed knowledge concerning the earth's deep interior has come to us from the...
The detailed investigation of mantle structure from the dispersion of surface waves is a young but ...
A detailed numerical investigation of surface wave dispersion and particle motion associated with th...
A detailed numerical investigation of surface wave dispersion and particle motion associated with th...
New long-period dispersion data are obtained from the surface waves generated by the Alaska earthqua...
New long-period dispersion data are obtained from the surface waves generated by the Alaska earthqua...
Surface wave studies have shown that the transition region of the upper mantle, Bullen's Region C, i...
Surface wave studies have shown that the transition region of the upper mantle, Bullen's Region C, i...
Using seismic body and surface waves, the velocity structure of the Earth's mantle is determined wit...
Using seismic body and surface waves, the velocity structure of the Earth's mantle is determined wit...
Part I: Phase velocities of Love waves from five major earthquakes are measured over six great circ...
The last decade has seen a large increase in the amount of high-quality data from a growing number ...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...
Mantle Rayleigh waves from the Kamchatka earthquake of November 4, 1952, are analyzed. The new Palis...