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    Three dimensional volcano-acoustic source localization at Karymsky Volcano, Kamchatka, Russia

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    Author
    Rowell, Colin
    Chair
    Fee, David
    Committee
    Christensen, Doug
    West, Michael
    Metadata
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    URI
    http://hdl.handle.net/11122/4473
    Abstract
    We test two methods of 3-D acoustic source localization on volcanic explosions and small-scale jetting events at Karymsky Volcano, Kamchatka, Russia. Recent infrasound studies have provided evidence that volcanic jets produce low-frequency aerodynamic sound (jet noise) similar to that from man-made jet engines. Man-made jets are known to produce sound through turbulence along the jet axis, but discrimination of sources along the axis of a volcanic jet requires a network of sufficient topographic relief to attain resolution in the vertical dimension. At Karymsky Volcano, the topography of an eroded edifice adjacent to the active cone provided a platform for the atypical deployment of five infrasound sensors with intra-network relief of ~600 m in July 2012. A novel 3-D inverse localization method, srcLoc, is tested and compared against a more common grid-search semblance technique. Simulations using synthetic signals indicate that srcLoc is capable of determining vertical source locations for this network configuration to within �150 m or better. However, srcLoc locations for explosions and jetting at Karymsky Volcano show a persistent overestimation of source elevation and underestimation of sound speed by an average of ~330 m and 25 m/s, respectively. The semblance method is able to produce more realistic source locations by fixing the sound speed to expected values of 335 - 340 m/s. The consistency of location errors for both explosions and jetting activity over a wide range of wind and temperature conditions points to the influence of topography. Explosion waveforms exhibit amplitude relationships and waveform distortion strikingly similar to those theorized by modeling studies of wave diffraction around the crater rim. We suggest delay of signals and apparent elevated source locations are due to altered raypaths and/or crater diffraction effects. Our results suggest the influence of topography in the vent region must be accounted for when attempting 3-D volcano acoustic source localization. Though the data presented here are insufficient to resolve noise sources for these jets, which are much smaller in scale than those of previous volcanic jet noise studies, similar techniques may be successfully applied to large volcanic jets in the future.
    Description
    Thesis (M.S.) University of Alaska Fairbanks, 2013
    Table of Contents
    1. Introduction -- 2. Jet noise -- 2.1. Man-made jet noise -- 2.2. Volcanic jet-noise -- 3. Campaign and data -- 3.1. Karymsky Volcano -- 3.2. Acoustic data -- 4. Localization methods -- 4.1. Localization primer -- 4.2. Inverse locator: srcLoc -- 4.3. Forward locator: semblance -- 5. Results and discussion -- 5.1. srcLoc -- 5.2. Semblance -- 5.3. Discussion of errors -- 6. Conclusions -- References
    Date
    2013-12
    Type
    Thesis
    Collections
    Geosciences

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