David Wilson
David Wilson is the director of the Global Seismographic Network.
Science and Products
Filter Total Items: 51
Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors
We conduct a number of laboratory tests at the Albuquerque Seismological Laboratory to verify the self‐noise and fidelity in which 3 three‐component Fairfield Nodal Z‐Land, Generation 2, 5‐Hz sensors are able to record seismic signals. In addition to the incoherent self‐noise of the sensors, we estimate the sensitivity of the units in digital volts/m/s, the damping, and the free period...
Authors
Adam T. Ringler, Robert E. Anthony, M.S Karplus, Austin Holland, David C. Wilson
The widespread influence of Great Lakes microseisms across the United States revealed by the 2014 polar vortex The widespread influence of Great Lakes microseisms across the United States revealed by the 2014 polar vortex
During the winter of 2014, a weak polar vortex brought record cold temperatures to the north‐central (“Midwest”) United States, and the Great Lakes reached the highest extent of ice coverage (92.5%) since 1979. This event shut down the generation of seismic signals caused by wind‐driven wave action within the lakes (termed “lake microseisms”), giving an unprecedented opportunity to...
Authors
Robert E. Anthony, Adam T. Ringler, David C. Wilson
Effects of thermal variability on broadband seismometers: Controlled experiments, observations, and implications Effects of thermal variability on broadband seismometers: Controlled experiments, observations, and implications
Isolating seismic instruments from temperature fluctuations is routine practice within the seismological community. However, the necessary degree of thermal stability required in broadband installations to avoid generating noise or compromising the fidelity in the seismic records is largely unknown and likely application dependent. To quantify the temperature sensitivity of seismometers...
Authors
Claire Doody, Adam T. Ringler, Robert E. Anthony, David C. Wilson, Austin Holland, Charles R. Hutt, Leo Sandoval
Detection and characterization of pulses in broadband seismometers Detection and characterization of pulses in broadband seismometers
Pulsing - caused either by mechanical or electrical glitches, or by microtilt local to a seismometer - can significantly compromise the long‐period noise performance of broadband seismometers. High‐fidelity long‐period recordings are needed for accurate calculation of quantities such as moment tensors, fault‐slip models, and normal‐mode measurements. Such pulses have long been recognized...
Authors
David C. Wilson, Adam T. Ringler, Charles R. Hutt
Repeatability of testing a small broadband sensor in the Albuquerque Seismological Laboratory Underground Vault Repeatability of testing a small broadband sensor in the Albuquerque Seismological Laboratory Underground Vault
Variability in seismic instrumentation performance plays a fundamental role in our ability to carry out experiments in observational seismology. Many such experiments rely on the assumed performance of various seismic sensors as well as on methods to isolate the sensors from nonseismic noise sources. We look at the repeatability of estimating the self‐noise, midband sensitivity, and the...
Authors
Adam T. Ringler, Austin Holland, David C. Wilson
Characterizing local variability in long‐period horizontal tilt noise Characterizing local variability in long‐period horizontal tilt noise
Horizontal seismic data are dominated by atmospherically induced tilt noise at long periods (i.e., 30 s and greater). Tilt noise limits our ability to use horizontal data for sensitive seismological studies such as observing free earth modes. To better understand the local spatial variability of long‐period horizontal noise, we observe horizontal noise during quiet time periods in the...
Authors
M.D. Rohde, Adam T. Ringler, Charles R. Hutt, David C. Wilson, Austin Holland, L.D Sandoval, Tyler Storm
Science and Products
Filter Total Items: 51
Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors
We conduct a number of laboratory tests at the Albuquerque Seismological Laboratory to verify the self‐noise and fidelity in which 3 three‐component Fairfield Nodal Z‐Land, Generation 2, 5‐Hz sensors are able to record seismic signals. In addition to the incoherent self‐noise of the sensors, we estimate the sensitivity of the units in digital volts/m/s, the damping, and the free period...
Authors
Adam T. Ringler, Robert E. Anthony, M.S Karplus, Austin Holland, David C. Wilson
The widespread influence of Great Lakes microseisms across the United States revealed by the 2014 polar vortex The widespread influence of Great Lakes microseisms across the United States revealed by the 2014 polar vortex
During the winter of 2014, a weak polar vortex brought record cold temperatures to the north‐central (“Midwest”) United States, and the Great Lakes reached the highest extent of ice coverage (92.5%) since 1979. This event shut down the generation of seismic signals caused by wind‐driven wave action within the lakes (termed “lake microseisms”), giving an unprecedented opportunity to...
Authors
Robert E. Anthony, Adam T. Ringler, David C. Wilson
Effects of thermal variability on broadband seismometers: Controlled experiments, observations, and implications Effects of thermal variability on broadband seismometers: Controlled experiments, observations, and implications
Isolating seismic instruments from temperature fluctuations is routine practice within the seismological community. However, the necessary degree of thermal stability required in broadband installations to avoid generating noise or compromising the fidelity in the seismic records is largely unknown and likely application dependent. To quantify the temperature sensitivity of seismometers...
Authors
Claire Doody, Adam T. Ringler, Robert E. Anthony, David C. Wilson, Austin Holland, Charles R. Hutt, Leo Sandoval
Detection and characterization of pulses in broadband seismometers Detection and characterization of pulses in broadband seismometers
Pulsing - caused either by mechanical or electrical glitches, or by microtilt local to a seismometer - can significantly compromise the long‐period noise performance of broadband seismometers. High‐fidelity long‐period recordings are needed for accurate calculation of quantities such as moment tensors, fault‐slip models, and normal‐mode measurements. Such pulses have long been recognized...
Authors
David C. Wilson, Adam T. Ringler, Charles R. Hutt
Repeatability of testing a small broadband sensor in the Albuquerque Seismological Laboratory Underground Vault Repeatability of testing a small broadband sensor in the Albuquerque Seismological Laboratory Underground Vault
Variability in seismic instrumentation performance plays a fundamental role in our ability to carry out experiments in observational seismology. Many such experiments rely on the assumed performance of various seismic sensors as well as on methods to isolate the sensors from nonseismic noise sources. We look at the repeatability of estimating the self‐noise, midband sensitivity, and the...
Authors
Adam T. Ringler, Austin Holland, David C. Wilson
Characterizing local variability in long‐period horizontal tilt noise Characterizing local variability in long‐period horizontal tilt noise
Horizontal seismic data are dominated by atmospherically induced tilt noise at long periods (i.e., 30 s and greater). Tilt noise limits our ability to use horizontal data for sensitive seismological studies such as observing free earth modes. To better understand the local spatial variability of long‐period horizontal noise, we observe horizontal noise during quiet time periods in the...
Authors
M.D. Rohde, Adam T. Ringler, Charles R. Hutt, David C. Wilson, Austin Holland, L.D Sandoval, Tyler Storm