The following pages link to Adam Ringler, Ph.D. (Q54198):
Displayed 50 items.
- Albuquerque Seismological Laboratory--50 years of global seismology (Q62968) (← links)
- Six decades of seismology at South Pole, Antarctica: Current limitations and future opportunities to facilitate new geophysical observations (Q146060) (← links)
- A review of timing accuracy across the Global Seismographic Network (Q146070) (← links)
- Rayleigh wave amplitude uncertainty across the Global Seismographic Network and potential implications for global tomography (Q146080) (← links)
- Self-noise models of five commercial strong-motion accelerometers (Q147870) (← links)
- The data quality analyzer: a quality control program for seismic data (Q148222) (← links)
- Self-noise models of seismic instruments (Q148818) (← links)
- Rapid station and network quality analysis for temporary deployments (Q149807) (← links)
- Earth’s upper crust seismically excited by infrasound from the 2022 Hunga Tonga–Hunga Ha’apai eruption, Tonga (Q150139) (← links)
- The global seismographic network reveals atmospherically coupled normal modes excited by the 2022 Hunga Tonga eruption (Q150258) (← links)
- Noise reduction in long‐period seismograms by way of array summing (Q151262) (← links)
- Seismometer Self-Noise and Measuring Methods (Q154946) (← links)
- The widespread influence of Great Lakes microseisms across the United States revealed by the 2014 polar vortex (Q156183) (← links)
- Uncertainty estimates in broadband seismometer sensitivities using microseisms (Q233923) (← links)
- Upgrade of the New China Digital Seismograph Network (Q234561) (← links)
- A quick SEED tutorial (Q234600) (← links)
- Strong-motion observations of the M 7.8 Gorkha, Nepal, earthquake sequence and development of the N-shake strong-motion network (Q234608) (← links)
- Potential improvements in horizontal very broadband seismic data in the IRIS/USGS component of the Global Seismic Network (Q238093) (← links)
- Broadband seismic noise attenuation versus depth at the Albuquerque Seismological Laboratory (Q238823) (← links)
- Characterizing local variability in long‐period horizontal tilt noise (Q239230) (← links)
- Repeatability of testing a small broadband sensor in the Albuquerque Seismological Laboratory Underground Vault (Q239323) (← links)
- Detection and characterization of pulses in broadband seismometers (Q239871) (← links)
- Effects of thermal variability on broadband seismometers: Controlled experiments, observations, and implications (Q240176) (← links)
- Improvements in absolute seismometer sensitivity calibration using local earth gravity measurements (Q240256) (← links)
- Obtaining changes in calibration-coil to seismometer output constants using sine waves (Q244380) (← links)
- Seismic Station Installation Orientation Errors at ANSS and IRIS/USGS Stations (Q244402) (← links)
- Estimating pole/zero errors in GSN-IRIS/USGS network calibration metadata (Q245342) (← links)
- Relative azimuth inversion by way of damped maximum correlation estimates (Q245541) (← links)
- Data quality of seismic records from the Tohoku, Japan earthquake as recorded across the Albuquerque Seismological Laboratory networks (Q246082) (← links)
- Method for calculating self-noise spectra and operating ranges for seismographic inertial sensors and recorders (Q247867) (← links)
- Temporal variations in Global Seismic Stations ambient noise power levels (Q248201) (← links)
- Some possible causes of and corrections for STS-1 response changes in the Global Seismographic Network (Q250298) (← links)
- A Comparison of seismic instrument noise coherence analysis techniques (Q250648) (← links)
- Installation and performance of the Albuquerque Seismological Laboratory small-aperture posthole array (Q253213) (← links)
- Calibration analysis and noise estimates of WWSSN Station ALQ (Albuquerque, New Mexico) (Q253537) (← links)
- The Albuquerque Seismological Lab WWSSN film chip preservation project (Q255880) (← links)
- Why do my squiggles look funny? A gallery of compromised seismic signals (Q256897) (← links)
- Comparison of co-recorded analog and digital systems for characterization of responses and uncertainties (Q259463) (← links)
- Seismic background noise levels across the continental United States from USArray Transportable Array: The influence of geology and geography (Q259999) (← links)
- Atmospheric waves and global seismoacoustic observations of the January 2022 Hunga eruption, Tonga (Q262335) (← links)
- Apparent non-double-couple components as artifacts of moment tensor inversion (Q262792) (← links)
- Improvements in seismic resolution and current limitations in the Global Seismographic Network (Q263807) (← links)
- Seismically observed seiching in the Panama Canal (Q264020) (← links)
- Magnetic field variations in Alaska: Recording space weather events on seismic stations in Alaska (Q269778) (← links)
- Background seismic noise levels among the Caribbean network and the role of station proximity to coastline (Q269781) (← links)
- Do low-cost seismographs perform well enough for your network? An overview of laboratory tests and field observations of the OSOP Raspberry Shake 4D (Q272141) (← links)
- A brief introduction to seismic instrumentation: Where does my data come from? (Q274446) (← links)
- Introduction to the digitization of seismic data: A user’s guide (Q279776) (← links)
- Laboratory tests of three Z‐Land Fairfield Nodal 5‐Hz, three‐component sensors (Q280654) (← links)
- Rayleigh wave ellipticity measurement uncertainty across the IRIS/USGS and New China Digital Seismograph Networks (Q280871) (← links)