Secondary: High Altitude Infrasound
Abstract not provided.
Publications
Enhancing the sensitivity of the IMS Infrasound Network using Balloon-Borne Microphones
Abstract not provided.
Acoustic signal proxies for explosive yield and scaled depth of burial during the Source Physics Experiment
Abstract not provided.
Secondary: Far Field Infrasound
Abstract not provided.
Primary: Near Field Infrasound
Abstract not provided.
Evaluating the Capability of High-Altitude Infrasound Platforms to Cover Gaps in Existing Networks
A variety of Earth surface and atmospheric sources generate low frequency sound waves that can travel great distances. Despite a rich history of ground-based sensor studies, very few experiments have investigated the prospects of free floating microphone arrays at high altitudes. However, recent initiatives have shown that such networks have very low background noise and may sample an acoustic wave field that is fundamentally different than that at the Earth's surface. The experiments have been limited to at most two stations at altitude, limiting their utility in acoustic event detection and localization. We describe the deployment of five drifting microphone stations at altitudes between 21 and 24 km above sea level. The stations detected one of two regional ground-based explosions as well as the ocean microbarom while traveling almost 500 km across the American Southwest. The explosion signal consisted of multiple arrivals; signal amplitudes did not correlate with sensor elevation or source range. A sparse network method that employed curved wave front corrections was able to determine the backazimuth from the free flying network to the acoustic source. Episodic broad band signals similar to those seen on previous flights in the same region were noted as well, but their source remains unclear. Background noise levels were commensurate with those on infrasound stations in the International Monitoring System (IMS) below 2 seconds, but sensor self noise appears to dominate at higher frequencies.
Infrasound in the Stratosphere Captured with Balloon-Borne Sensors
Abstract not provided.
The acoustic signature of underground chemical explosions during the Source Physics Experiment
Abstract not provided.
The acoustic signature of underground chemical explosions during the Source Physics Experiment
Abstract not provided.
The acoustic signature of underground chemical explosions during the Source Physics Experiment
Abstract not provided.
Infrasound Modeling using SPE Overburied Explosions
Abstract not provided.
The Boom-Glider: A Dispersed Acoustic Wave from the 2014 Antares Rocket Explosion
Abstract not provided.
The Acoustic Signature of Underground Chemical Explosions during the Source Physics Experiment
Abstract not provided.
Socorro and Wanaka: Balloon Borne Infrasound Experiments
Abstract not provided.
Acoustic yield estimation using full waveforms
Abstract not provided.
Geoacoustics of the Source Physics Experiment
Abstract not provided.
Ground to Space Geoacoustic Characterization during the DAG Experiment
Abstract not provided.
Geoacoustics Takes to the Sky
Abstract not provided.
Airborne Geoacoustics during the Dry Alluvium Geology (DAG) Series
Abstract not provided.
Infrasound Event Detection via Free Flying Stations in the Stratosphere
Abstract not provided.
SPE-6 Infrasound Predictions
Abstract not provided.
Precise Absolute Time for Geophysical Applications
Abstract not provided.
Developing a Next Generation Geoacoustic Sensor
Abstract not provided.
Coupling Near-Field to Infrasound
Abstract not provided.
USIE Payload MRR
Abstract not provided.
Results 101–125 of 126