Validation of Multistatic Meteor Radar Analysis Using Modeled Mesospheric Dynamics: An Assessment of the Reliability of Gradients and Vertical Velocities
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https://hdl.handle.net/10037/26274Date
2022-02-28Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Charuvil Asokan, Harikrishnan; Chau, Jorge L.; Larsen, Miguel F.; Conte, J. Federico; Marino, Raffaele; Vierinen, Juha; Baumgarten, Gerd; Borchert, SebastianAbstract
A virtual meteor radar system based on the upper-atmosphere extension of the high-resolution
ICOsahedral Non-hydrostatic general circulation model is constructed to validate multistatic specular meteor
radar (SMR) analyses. The virtual radar system examines the validity of mean winds and gradients estimation
techniques used in multistatic SMRs. The study is motivated by unexpected mean values and tide-like features
recently observed in the vertical velocities estimated from multistatic SMRs at different latitudes in the
mesosphere and lower thermosphere. The proposed analysis confirms multistatic SMR systems' excellent
capability to measure the horizontal mean wind components and gradient terms. It is also found that multistatic
SMRs can estimate mean vertical winds if they have an amplitude greater than ±2 m/s. Due to the smoothing
inherent to the model results, these results should be treated as lower bounds to the error incurred using real
data. Hourly variability in vertical velocity estimates up to ±1–2 m/s in the observed vertical winds are due to
contamination by small-scale horizontal structures in the horizontal winds.
Publisher
WileyCitation
Charuvil Asokan, Chau, Larsen, Conte, Marino, Vierinen, Baumgarten, Borchert. Validation of Multistatic Meteor Radar Analysis Using Modeled Mesospheric Dynamics: An Assessment of the Reliability of Gradients and Vertical Velocities. Journal of Geophysical Research (JGR): Atmospheres. 2022;127(5)Metadata
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