2013
DOI: 10.1002/jgrd.50833
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The estimation of upper atmospheric wind model updates from infrasound data

Abstract: [1] In our recent paper, the sensitivity of infrasound to the upper atmosphere is investigated using impulsive signals from the Tungurahua volcano in Ecuador. We reported on the coherent variability of thermospheric travel times, with periods equal to those of the tidal harmonics. Moreover, it was shown that the error in predicted thermospheric travel time is in accord with typical uncertainties in the upper atmospheric wind speed models. Given the observed response of the infrasound celerities to upper atmosp… Show more

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Cited by 49 publications
(41 citation statements)
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“…As infrasound waves propagate through the atmosphere, the wave characteristics reveal, in addition to information about the source, significant features of the vertical structure of the wind and temperature. The interpretation of these data has motivated studies on sources of infrasonic waves and their propagation in the upper atmosphere as a means to monitor passively stratospheric [Antier et al, 2007;Kulichkov, 2010] and mesospheric-thermospheric [Rind et al, 1973;Le Pichon et al, 2005b;Assink et al, 2013;Chunchuzov et al, 2013] wind and temperature fields. Among others, studies have focused on the influence of geomagnetic fluctuations [Garcés et al, 2002] and atmospheric solar tides on infrasound propagation, which modulates wind speed and direction in the upper atmosphere [Le Pichon et al, 2005a;Green et al, 2012].…”
Section: Passive Acoustic Remote Sensingmentioning
confidence: 99%
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“…As infrasound waves propagate through the atmosphere, the wave characteristics reveal, in addition to information about the source, significant features of the vertical structure of the wind and temperature. The interpretation of these data has motivated studies on sources of infrasonic waves and their propagation in the upper atmosphere as a means to monitor passively stratospheric [Antier et al, 2007;Kulichkov, 2010] and mesospheric-thermospheric [Rind et al, 1973;Le Pichon et al, 2005b;Assink et al, 2013;Chunchuzov et al, 2013] wind and temperature fields. Among others, studies have focused on the influence of geomagnetic fluctuations [Garcés et al, 2002] and atmospheric solar tides on infrasound propagation, which modulates wind speed and direction in the upper atmosphere [Le Pichon et al, 2005a;Green et al, 2012].…”
Section: Passive Acoustic Remote Sensingmentioning
confidence: 99%
“…Recently, studies have focused on the development of inverse methods to estimate upper atmospheric wind updates from infrasound data [Le Pichon et al, 2005b;Drob et al, 2010;Lalande et al, 2012;Assink et al, 2013;Arrowsmith et al, 2013]. Inversions for upper atmospheric data using infrasound data are not only useful in further reducing the uncertainty of these parameters but are also beneficial for applications that require a precise modeling, such as for estimation of explosion magnitude [Assink et al, 2013].…”
Section: Passive Acoustic Remote Sensingmentioning
confidence: 99%
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“…Infrasound measurements are used for investigating wind velocity variations in the stratosphere, mesosphere, and lower thermosphere (e.g. Le Pichon et al, 2010;Assink et al, 2012Assink et al, , 2013Chunchuzov et al, 2015). Over a 14-year period the space-borne high-resolution Doppler imager (HRDI) (Burrage et al, 1996) measured wind velocities typically between 60 • N and 60 • S and down to 50 km and contributed to the Upper Atmosphere Research Satellite (UARS) Reference Atmosphere Project (URAP) (Swinbank and Ortland, 2003) wind climatology.…”
Section: Introductionmentioning
confidence: 99%