Publications

Results 1–25 of 44

Search results

Jump to search filters

LYNM PE1 Pre-Experiment A Site Characterization Report

Bodmer, Miles; Townsend, Margaret J.; Roberts, Barry L.; Wilson, Jennifer E.; Bays, Nathan R.; Smith, Devon; Downs, Nicholas M.; Feldman, Joshua D.; Choens, Robert C.; Heath, Jason E.; Holland, Austin A.; Barrow, Perry C.; Bartlett, Tara; Boukhalfa, Hakim; Broome, Scott T.; Dietel, Matthew; Downs, Christine; Ezzedine, Souheil M.; Freimuth, Clayton R.; Griego, James J.M.; Ingraham, Mathew; Jaramillo, Johnny L.; Jones, Kyle R.; Kibikas, William; Kuhlman, Kristopher L.; Larotonda, Jennifer M.; Miller, Andrew J.; Otto, Shawn J.; Powell, Matthew D.; Rodriguez, Mark A.; Tafoya, Joshua J.; Valdez, Nichole R.; Xu, Guangping; Lyons, Stephanie M.; Stauffer, Philip H.

Underground chemical explosive experiments such as LYNM PE1 generate large multiphenomenological datasets, require complex site preparation and build out, and utilize cutting edge models and analysis techniques to analyze and simulate the explosion-induced signals. This wide range of outcomes makes it a necessity to thoroughly characterize the testbed in advance of experiments in a way that complements the wide suite of data being generated. Here, we present a broad overview of the site characterization work and data collection that was conducted before Experiment A, which is the first in a series of three PE1 experiments. This work includes, but is not limited to, geologic mapping, physical sample collection, analysis of material properties, geophysical borehole logging, and in-situ measurements. This information was collected by a large, dedicated team and was used to inform site construction, finalize instrumentation placement, generate Geologic Framework Models, feed pre-experiment predictions, and facilitate post-experiment data analysis

More Details

Infrasound Generation from the HH Seismic Hammer

Jones, Kyle R.

The HH Seismic hammer is a large, "weight-drop" source for active source seismic experiments. This system provides a repetitive source that can be stacked for subsurface imaging and exploration studies. Although the seismic hammer was designed for seismological studies it was surmised that it might produce energy in the infrasonic frequency range due to the ground motion generated by the 13 metric ton drop mass. This study demonstrates that the seismic hammer generates a consistent acoustic source that could be used for in-situ sensor characterization, array evaluation and surface-air coupling studies for source characterization.

More Details
Results 1–25 of 44
Results 1–25 of 44
Top