Journal article
Third moments and the role of anisotropy from velocity shear in the solar wind
JE Stawarz, BJ Vasquez, CW Smith, MA Forman, J Klewicki
Astrophysical Journal | Published : 2011
Abstract
We have extended the recent analyses of magnetohydrodynamic third moments as they relate to the turbulent energy cascade in the solar wind to consider the effects of large-scale shear flows. Moments from a large set of Advanced Composition Explorer data have been taken, and chosen data intervals are characterized by the rate of change in the solar wind speed. Mean dissipation rates are obtained in accordance with the predictions of homogeneous shear-driven turbulence. Agreement with predictions is best made for rarefaction intervals where the solar wind speed is decreasing with time. For decreasing speed intervals, we find that the dissipation rates increase with increasing shear magnitude a..
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Awarded by Directorate For Geosciences; Div Atmospheric & Geospace Sciences
Funding Acknowledgements
The authors thank the ACE/SWEPAM team for providing the thermal proton data used in this study. J.E.S. and C. W. S. are supported by Caltech subcontract 44A1085631 to the University of New Hampshire in support of the ACE/MAG instrument. C. W. S., B.J.V., and M. A. F. are supported by NASA Sun-Earth Connection Guest Investigator grants NNX08AJ19G and NNX09AG28G. B.J.V. is also supported by NSF SHINE grant ATM0850705 and NASA Solar and Heliospheric Physics SRT grants NNX07AI14G and NNX10AC18G. J.E.S. is an undergraduate physics major at the University of New Hampshire.