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Citation |
Elbing BR, Petrin CE, Van Den Broeke MS. J. Acoust. Soc. Am. 2019; 146(3): e1528. |
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Affiliation |
Earth and Atmospheric Sciences, University of Nebraska-Lincoln, Lincoln, Nebraska 68588, USA. |
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Copyright |
(Copyright © 2019, American Institute of Physics) |
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DOI |
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PMID |
31590561 |
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Abstract |
A hail-producing supercell on 11 May 2017 produced a small tornado near Perkins, Oklahoma (35.97, -97.04) at 2013 UTC. Two infrasound microphones with a 59-m separation and a regional Doppler radar station were located 18.7 and 70 km from the tornado, respectively. Elevated infrasound levels were observed starting 7 min before the verified tornado. Infrasound data below ∼5 Hz was contaminated with wind noise, but in the 5-50 Hz band the infrasound was independent of wind speed with a bearing angle that was consistent with the movement of the storm core that produced the tornado. During the tornado, a 75 dB peak formed at ∼8.3 Hz, which was 18 dB above pre-tornado levels. This fundamental frequency had overtones (18, 29, 36, and 44 Hz) that were linearly related to mode number. Analysis of a larger period of time associated with two infrasound bursts (the tornado occurred during the first event) shows that the spectral peaks from the tornado were present from 4 min before to 40 min after tornadogenesis. This suggests that the same geophysical process(es) was active during this entire window. Language: en |