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Chris L. Hackert
Researcher at Southwest Research Institute
Publications - 53
Citations - 937
Chris L. Hackert is an academic researcher from Southwest Research Institute. The author has contributed to research in topics: Attenuation & Well logging. The author has an hindex of 16, co-authored 53 publications receiving 850 citations. Previous affiliations of Chris L. Hackert include University of Texas at Austin.
Papers
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Journal ArticleDOI
Global thermosphere‐ionosphere response to onset of 20 November 2003 magnetic storm
G. Crowley,Chris L. Hackert,R. R. Meier,D. J. Strickland,Larry J. Paxton,Xiaoqing Pi,Anthony J. Mannucci,Andrew B. Christensen,Daniel Morrison,Gary S. Bust,Raymond G. Roble,N. Curtis,G. P. Wene +12 more
TL;DR: In this article, the authors explore how the thermosphere-ionosphere system responded to the onset of the 20 November 2003 geomagnetic storm, using the NCAR TIMEGCM.
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First look at the 20 November 2003 superstorm with TIMED/GUVI: Comparisons with a thermospheric global circulation model
R. R. Meier,G. Crowley,D. J. Strickland,Andrew B. Christensen,Larry J. Paxton,Daniel Morrison,Chris L. Hackert +6 more
TL;DR: The NASA TIMED/GUVI experiment obtained unprecedented far ultraviolet images of thermospheric composition and temperature during the intense geomagnetic storm on 20-21 November 2003 as mentioned in this paper.
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Effects of thermal boundary conditions on flame shape and quenching in ducts
TL;DR: In this article, the effects of varying the heat transfer boundary conditions on the flame shape and propagation speed are examined, and two flame shapes are shown to arise, depending on the channel width and wall heat losses.
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Combustion and heat transfer in model two-dimensional porous burners
TL;DR: In this article, a two-dimensional model of two simple porous burner geometries is developed to analyze the influence of multidimensionality on flames within pore scale structures.
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Thermospheric density structures over the polar regions observed with CHAMP
TL;DR: In this article, an accelerometer onboard the CHAMP satellite was used to detect considerable structure in high-latitude thermospheric densities, which can be either maxima or minima, and the amplitudes of these density extrema can reach 50% of ambient.