M
Miguel Larsen
Researcher at Clemson University
Publications - 121
Citations - 3557
Miguel Larsen is an academic researcher from Clemson University. The author has contributed to research in topics: Thermosphere & Ionosphere. The author has an hindex of 31, co-authored 115 publications receiving 3160 citations.
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Journal ArticleDOI
An empirical model of the Earth's horizontal wind fields: HWM07
Douglas P. Drob,J. T. Emmert,Geoff Crowley,J. M. Picone,Gordon G. Shepherd,Wilbert R. Skinner,Paul B. Hays,Rick J. Niciejewski,Miguel Larsen,Chiao-Yao She,John W. Meriwether,G. Hernandez,Martin J. Jarvis,D. P. Sipler,Craig A. Tepley,M. S. O'Brien,J. R. Bowman,Qian Wu,Yasuhiro Murayama,Seiji Kawamura,Iain M. Reid,Robert A. Vincent +21 more
TL;DR: The Horizontal Wind Model (HWM07) as mentioned in this paper provides a statistical representation of the horizontal wind fields of the Earth's atmosphere from the ground to the exosphere (0-500 km).
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Gravity wave initiation of equatorial spread F: A case study
TL;DR: In this article, the authors show that although initiation by a gravity wave seems likely, the gravity wave interaction cannot yield the large displacements observed without further amplification by the Rayleigh-Taylor instability.
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Winds and shears in the mesosphere and lower thermosphere: Results from four decades of chemical release wind measurements
TL;DR: The results from the analysis of the data set show that a wind maximum in the altitude range between 100 and 110 km is a consistent feature of the observations at midlatitudes and low latitudes as mentioned in this paper.
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Common volume coherent and incoherent scatter radar observations of mid-latitude sporadic E-layers and QP echoes
TL;DR: In this article, common volume observations of sporadic E-layers made on 14-15 June 2002 with the Arecibo incoherent scatter radar and a 30MHz coherent scatter radar imager located on St Croix are described.
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Unstable layers in the mesopause region observed with Na lidar during the Turbulent Oxygen Mixing Experiment (TOMEX) campaign
TL;DR: The state of the atmosphere in which the rocket was launched into was examined using the lidar measurements in this article, where both convectively and dynamically unstable layers were observed at various times and altitudes during the night.