R
Ramon Lopez
Researcher at University of Texas at Arlington
Publications - 320
Citations - 10464
Ramon Lopez is an academic researcher from University of Texas at Arlington. The author has contributed to research in topics: Magnetosphere & Solar wind. The author has an hindex of 50, co-authored 307 publications receiving 9767 citations. Previous affiliations of Ramon Lopez include Johns Hopkins University & Florida Institute of Technology.
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Estimating labor supply and production decisions of self-employed farm producers
TL;DR: In this paper, a model oriented towards integrating farm households' production and consumption decisions into a unified theoretical and econometric framework is proposed, and it is argued that, in contrast with other forms of economic organization, farm households's utility and profit maximization decisions are not likely to be independent.
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Solar wind proton temperature-velocity relationship
Ramon Lopez,John W. Freeman +1 more
TL;DR: In this article, the authors analyzed Helios 1 data to find an experimental fit for the temperature-velocity relationship at 1 AU, and found that the proton temperature changes at a velocity of approximately 500 km/s, while the functional form of these relationships appears to be preserved throughout the solar cycle.
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A multisatellite case study of the expansion of a substorm current wedge in the near-earth magnetotail
Ramon Lopez,A. T. Y. Lui +1 more
TL;DR: In this article, the authors present a series of observations from four satellites (GOES 5, GOES 6, AMPTE CCE, and PMPTE IRM) and two ground stations (San Juan and Tucson) on a substorm that occurred on April 19, 1985 at about 0830 UT.
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Pseudobreakup and substorm growth phase in the ionosphere and magnetosphere
TL;DR: In this paper, the authors examined the physical conditions in the near Earth plasma sheet and analyzed the development in the ionosphere using ground-based magnetometers and electric field observations from the STARE radar.
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Magnetic field drift shell splitting: Cause of unusual dayside particle pitch angle distributions during storms and substorms
TL;DR: In this article, a drift shell splitting model for the unusual butterfly and head-and-shoulder energetic particle pitch angle distributions (PADs) which appear deep within the dayside magnetosphere during the course of storms and substorms was presented.