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The Solar Wind and Geomagnetic Activity as a Function of Time Relative to Corotating Interaction RegionsCorotating interaction regions during the declining phase of the solar cycle are the cause of recurrent geomagnetic storms and are responsible for the generation of high fluxes of relativistic electrons. These regions are produced by the collision of a high-speed stream of solar wind with a slow-speed stream. The interface between the two streams is easily identified with plasma and field data from a solar wind monitor upstream of the Earth. The properties of the solar wind and interplanetary magnetic field are systematic functions of time relative to the stream interface. Consequently the coupling of the solar wind to the Earth's magnetosphere produces a predictable sequence of events. Because the streams persist for many solar rotations it should be possible to use terrestrial observations of past magnetic activity to predict future activity. Also the high-speed streams are produced by large unipolar magnetic regions on the Sun so that empirical models can be used to predict the velocity profile of a stream expected at the Earth. In either case knowledge of the statistical properties of the solar wind and geomagnetic activity as a function of time relative to a stream interface provides the basis for medium term forecasting of geomagnetic activity. In this report we use lists of stream interfaces identified in solar wind data during the years 1995 and 2004 to develop probability distribution functions for a variety of different variables as a function of time relative to the interface. The results are presented as temporal profiles of the quartiles of the cumulative probability distributions of these variables. We demonstrate that the storms produced by these interaction regions are generally very weak. Despite this the fluxes of relativistic electrons produced during those storms are the highest seen in the solar cycle. We attribute this to the specific sequence of events produced by the organization of the solar wind relative to the stream interfaces. We also show that there are large quantitative differences in various parameters between the two cycles.
Document ID
20080018955
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
Authors
McPherron, Robert L.
(California Univ. Los Angeles, CA, United States)
Weygand, James
(California Univ. Los Angeles, CA, United States)
Date Acquired
August 24, 2013
Publication Date
September 26, 2006
Publication Information
Publication: Recurrent Magnetic Storms: Corotating Solar Wind Streams
ISBN: 0-87590-432-7
Subject Category
Solar Physics
Funding Number(s)
CONTRACT_GRANT: NNG04GA93G
CONTRACT_GRANT: ATM 02-08501
CONTRACT_GRANT: ATM-0120950
CONTRACT_GRANT: ATM 02-1798
Distribution Limits
Public
Copyright
Other

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