Telluric currents.

Jones, Frederick Walter

January 1967

No description available.

Earth currents

Telluric currents.

Jones, Frederick Walter

January 1967

No description available.

Earth currents

Telluric and magnetotelluric surveys at 8Hz.

Slankis, John Aris.

January 1970

No description available.

Electric prospecting

Earth currents

Some magnetotelluric modeling techniques

Berge, William Victor,

January 1968

Thesis (M.S.)--University of Wisconsin--Madison, 1968. / eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Earth currents Geomagnetism

Telluric and magnetotelluric surveys at 8Hz.

Slankis, John Aris.

January 1970

No description available.

Earth currents

Electric prospecting

Electrical conductivity structure of the lower crust and upper mantle in western Canada

Caner, Bernard

January 1969

Geomagnetic induction techniques have been used to study the structure of the crust and upper mantle in western Canada. Geomagnetic depth-sounding (GDS) has been used primarily for mapping, and magnetotellurics (MT) for quantitative interpretation. Self-consistent models of electrical conductivity structure have been derived from the combined MT/GDS data. The conductivity structure models have been considered in conjunction with other relevant geophysical information: heat-flow, seismology and aeromagnetic surveys. No definite petrological models can be derived because of the order-of-magnitude uncertainties in the relations between electrical conductivity, temperature and composition. However, if we exclude geochemically improbable solutions, the following two distinct results can be extracted: a) In southwestern Canada (boundaries not clearly defined, but at least as far east as Lethbridge), the uppermost mantle is moderately conducting (resistivity 30-50 ohm-meters). This indicates a temperature of at least 750°C at depth 35 km., and provides independent confirmation (without assumptions of crustal structure) of the heat-flow derived estimates of Roy et al (1968b). b) In a sharply delineated region starting from about 0-30 km west of the Rocky Mountain Trench, the lower crust (from a depth of about 10-15 km) is conductive. The most likely interpretation is a hydrated lower crust, as proposed by Hyndman and Hyndman, 1968. Hydration alone is sufficient to explain the observed conductivities, i.e. higher temperatures are not necessarily required for this model. However, given the information from (a) above, some partial melting of hydrated granitic materials should occur in this zone; this is in good agreement with the geological evidence of granitic intrusives in this region. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate

Geomagnetism -- Canada

Earth currents -- Canada

The indepth magnetotelluric experiment on the Tibetan Plateau and its implications /

Li, Shenghui.

January 2001

Thesis (Ph. D.)--University of Washington, 2001. / Vita. Includes bibliographical references (leaves 132-150).

Finite element analysis of telluric and magnetetelluric response over resitivity anomlies and topographic effects

Kisak, Eugene.

January 1976

No description available.

Magnetic prospecting.

Earth currents.

Finite element method.

Finite element analysis of telluric and magnetetelluric response over resitivity anomlies and topographic effects

Kisak, Eugene.

January 1976

No description available.

Earth currents.

Finite element method.

Magnetic prospecting.

A model study of the electromagnetic response of a channel, an island and a seamount in the South China Sea

Hu, Wenbao

12 November 2014

Graduate

geomagnetism

earth currents

magnetic resonance

induction

electromagnetic

South China Sea