Carol A Finn, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 131
Areogeophysical investigations over the Bowers Mountains, North Victoria Land; Antarctica Areogeophysical investigations over the Bowers Mountains, North Victoria Land; Antarctica
No abstract available.
Authors
Uwe Meyer, Detlef Damaske, Herbert Hoppe, Carol A. Finn, Jonas Michael
Assessment of the mineral resources for the Adel 1 degree by 2 degrees quadrangle, Oregon Assessment of the mineral resources for the Adel 1 degree by 2 degrees quadrangle, Oregon
No abstract available.
Authors
Walter J. Bawiec, Gerda A. Abrams, Carol A. Finn, James A. Pitkin, Jean L. Ryder, Steven M. Smith, Paul K. Theobald, Dean B. Vander Meulen, George W. Walker
Geophysical constraints on Washington convergent margin structure Geophysical constraints on Washington convergent margin structure
Gravity and magnetic maps of western Washington reveal the lateral structure and fabric of the Washington Coast Range, Puget Basin, and southern Washington Cascade Range. The magnetic and gravity maps show large amplitude positive anomalies associated with the shallow but largely buried section of Washington Coast Range mafic rocks which are separated by negative anomalies over deep...
Authors
Carol A. Finn
Evidence from gravity data for an intrusive complex beneath Mount St. Helens Evidence from gravity data for an intrusive complex beneath Mount St. Helens
On the basis of gravity data, aided by aeromagnetic, magnetotelluric, side-looking radar, and geologic information, we tentatively identify a large, shallow intrusive complex beneath Mount St. Helens. The complex is roughly 5–6 km thick and has apparently intruded a buried and compressed Mesozoic forearc sedimentary sequence. The lateral extent of the intrusive complex is uncertain, and...
Authors
David L. Williams, Gerda Abrams, Carol A. Finn, Daniel Dzurisin, Daniel J. Johnson, Roger P. Denlinger
Tectonics and conductivity structures in the Southern Washington Cascades Tectonics and conductivity structures in the Southern Washington Cascades
The tectonic setting of the southern Washington Cascades has been studied with the aid of magnetotelluric (MT) and other geophysical data. The main feature of interest in the geophysical data is a broad high-conductivity anomaly mapped with MT and geomagnetic variation (GMV) data. This anomaly is located roughly within the triangle formed by the volcanoes Mount Rainier, Mount St. Helens...
Authors
William D. Stanley, Carol A. Finn, Joseph L. Plesha
An aeromagnetic study of Mount St. Helens An aeromagnetic study of Mount St. Helens
Aeromagnetic data from surveys flown by the U.S. Geological Survey over Mount St. Helens, Washington, before and after the climactic May 18, 1980, eruption were used to determine the bulk magnetic properties of the volcano and to delineate a buried source. We assumed that most of the edifice of preeruption and posteruption Mount St. Helens has a magnetization direction near the present...
Authors
Carol A. Finn, David L. Williams
Science and Products
Filter Total Items: 131
Areogeophysical investigations over the Bowers Mountains, North Victoria Land; Antarctica Areogeophysical investigations over the Bowers Mountains, North Victoria Land; Antarctica
No abstract available.
Authors
Uwe Meyer, Detlef Damaske, Herbert Hoppe, Carol A. Finn, Jonas Michael
Assessment of the mineral resources for the Adel 1 degree by 2 degrees quadrangle, Oregon Assessment of the mineral resources for the Adel 1 degree by 2 degrees quadrangle, Oregon
No abstract available.
Authors
Walter J. Bawiec, Gerda A. Abrams, Carol A. Finn, James A. Pitkin, Jean L. Ryder, Steven M. Smith, Paul K. Theobald, Dean B. Vander Meulen, George W. Walker
Geophysical constraints on Washington convergent margin structure Geophysical constraints on Washington convergent margin structure
Gravity and magnetic maps of western Washington reveal the lateral structure and fabric of the Washington Coast Range, Puget Basin, and southern Washington Cascade Range. The magnetic and gravity maps show large amplitude positive anomalies associated with the shallow but largely buried section of Washington Coast Range mafic rocks which are separated by negative anomalies over deep...
Authors
Carol A. Finn
Evidence from gravity data for an intrusive complex beneath Mount St. Helens Evidence from gravity data for an intrusive complex beneath Mount St. Helens
On the basis of gravity data, aided by aeromagnetic, magnetotelluric, side-looking radar, and geologic information, we tentatively identify a large, shallow intrusive complex beneath Mount St. Helens. The complex is roughly 5–6 km thick and has apparently intruded a buried and compressed Mesozoic forearc sedimentary sequence. The lateral extent of the intrusive complex is uncertain, and...
Authors
David L. Williams, Gerda Abrams, Carol A. Finn, Daniel Dzurisin, Daniel J. Johnson, Roger P. Denlinger
Tectonics and conductivity structures in the Southern Washington Cascades Tectonics and conductivity structures in the Southern Washington Cascades
The tectonic setting of the southern Washington Cascades has been studied with the aid of magnetotelluric (MT) and other geophysical data. The main feature of interest in the geophysical data is a broad high-conductivity anomaly mapped with MT and geomagnetic variation (GMV) data. This anomaly is located roughly within the triangle formed by the volcanoes Mount Rainier, Mount St. Helens...
Authors
William D. Stanley, Carol A. Finn, Joseph L. Plesha
An aeromagnetic study of Mount St. Helens An aeromagnetic study of Mount St. Helens
Aeromagnetic data from surveys flown by the U.S. Geological Survey over Mount St. Helens, Washington, before and after the climactic May 18, 1980, eruption were used to determine the bulk magnetic properties of the volcano and to delineate a buried source. We assumed that most of the edifice of preeruption and posteruption Mount St. Helens has a magnetization direction near the present...
Authors
Carol A. Finn, David L. Williams
*Disclaimer: Listing outside positions with professional scientific organizations on this Staff Profile are for informational purposes only and do not constitute an endorsement of those professional scientific organizations or their activities by the USGS, Department of the Interior, or U.S. Government