Campuses:
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| + | An alphabetized list of relevant papers and sources used throughout the project. Structure is as follows: | ||
| + | * Author(s) (Pub. year): Pub. title| pdf | ||
| + | * Short description of contents within | ||
| + | ------------------------------------------------------------------------------------------------------------------------------------------------------ | ||
| * Boore and Joyner (1997): Site Amplifications for Generic Rock Sites: {{: | * Boore and Joyner (1997): Site Amplifications for Generic Rock Sites: {{: | ||
| * Contains motivation for use of power law representing shear-wave velocity models | * Contains motivation for use of power law representing shear-wave velocity models | ||
| - | * Caddey, et. al (1991):The Homestake gold mine, an early Proterozoic iron-formation-hosted gold deposit, Lawrence County, South Dakota | + | * Caddey, et. al (1991):The Homestake gold mine, an early Proterozoic iron-formation-hosted gold deposit, Lawrence County, South DakotaL: |
| * Geochemical data for different levels within Homestake | * Geochemical data for different levels within Homestake | ||
| + | * Coughlin, et al (2014); Wiener filtering in a seismic underground array at the Sanford Underground Research Facility: | ||
| + | * Present method of Wiener filtering at the SURF. They achieve about an order of magnitude noise cancellation in the 0.05-1 Hz band. Also, it is shown that optimizing filter order can significantly improve subtraction of seismic noise. | ||
| + | * Driggers, Harms, and Adhikari (2012): Subtraction of Newtonian Noise using optimized sensor arrays: | ||
| + | * Implement schemes to mitigate Newtonian Noise and investigated the effects of array configurations on Newtonian Noise subtraction | ||
| * Haney and Tsai (2015): Nonperturbational surface-wave inversion: A Dix-type relation for surface waves: {{: | * Haney and Tsai (2015): Nonperturbational surface-wave inversion: A Dix-type relation for surface waves: {{: | ||
| * Parameter estimation for surface waves assuming a shear-wave velocity model | * Parameter estimation for surface waves assuming a shear-wave velocity model | ||
| - | * Roggenthen and Koch (2013): Geophysical Logging of DUSEL Core and Geotechnical Applications {{: | + | |
| - | * Paper with extensive seismic velocity data based on core data. | + | * Seismic spectra at three different depths are compared, establishing the 4100-ft level as a world-class low seismic-noise environment. |
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| + | * Paper with extensive seismic velocity data based on core data. | ||
| + | * Saulson (1984): Terrestrial gravitational noise on a gravitational wave antenna: {{: | ||
| + | * An introduction to the idea of Newtonian Noise and its effects on gravitational wave detectors | ||
| + | * Tsai (2010): The relationship between noise correlation and the Green’s function in the presence of degeneracy and the absence of equipartition: | ||
| + | * The title says it all--seems especially relevant for the work done by Victor and Daniel at Caltech | ||
| * Tsai and Atiganyanun (2014): Green’s Functions for Surface Waves in a Generic Velocity Structure: {{: | * Tsai and Atiganyanun (2014): Green’s Functions for Surface Waves in a Generic Velocity Structure: {{: | ||
| - | * Information regarding the surface wave eigenfunction calculation--assumes a shear-wave velocity model (cf. Boore & Joyner 1997) and density model. | + | * Information regarding the surface wave eigenfunction calculation--assumes a shear-wave velocity model (cf. Boore & Joyner 1997) and density model. |
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