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dc.contributor.authorGamayunov, Konstantin V.
dc.contributor.authorZhang, Ming
dc.contributor.authorRassoul, Hamid K.
dc.contributor.authorPogorelov, Nikolai V.
dc.contributor.authorHeerikhuisen, Jacob
dc.date.accessioned2013-06-28T18:25:33Z
dc.date.available2013-06-28T18:25:33Z
dc.date.issued2012-09-20
dc.identifier.citationGamayunov, Konstantin V.; Zhang, Ming; Pogorelov, Nikolai V; Heerikhuisen, Jacob; & Rassoul, Hamid K., (2012). Self-consistent Model of the Interstellar Pickup Protons, Alfvénic Turbulence, and Core Solar Wind in the Outer Heliosphere. The Astrophysical Journal, 757(1), 74.en_US
dc.identifier.urihttp://hdl.handle.net/11141/62
dc.description.abstractA self-consistent model of the interstellar pickup protons, the slab component of the Alfvenic turbulence, and core solar wind (SW) protons is presented for r {>=} 1 along with the initial results of and comparison with the Voyager 2 (V2) observations. Two kinetic equations are used for the pickup proton distribution and Alfvenic power spectral density, and a third equation governs SW temperature including source due to the Alfven wave energy dissipation. A fraction of the pickup proton free energy, f{sub D} , which is actually released in the waveform during isotropization, is taken from the quasi-linear consideration without preexisting turbulence, whereas we use observations to specify the strength of the large-scale driving, C{sub sh}, for turbulence. The main conclusions of our study can be summarized as follows. (1) For C{sub sh} Almost-Equal-To 1-1.5 and f{sub D} Almost-Equal-To 0.7-1, the model slab component agrees well with the V2 observations of the total transverse magnetic fluctuations starting from {approx}8 AU. This indicates that the slab component at low-latitudes makes up a majority of the transverse magnetic fluctuations beyond 8-10 AU. (2) The model core SW temperature agrees well with the V2 observations for r {approx}> 20 AU if f{sub D} Almost-Equal-To 0.7-1. (3) A combined effect of the Wentzel-Kramers-Brillouin attenuation, large-scale driving, and pickup proton generated waves results in the energy sink in the region r {approx}< 10 AU, while wave energy is pumped in the turbulence beyond 10 AU. Without energy pumping, the nonlinear energy cascade is suppressed for r {approx}< 10 AU, supplying only a small energy fraction into the k-region of dissipation by the core SW protons. A similar situation takes place for the two-dimensional turbulence. (4) The energy source due to the resonant Alfven wave damping by the core SW protons is small at heliocentric distances r {approx}< 10 AU for both the slab and the two-dimensional turbulent components. As a result, adiabatic cooling mostly controls the model SW temperature in this region, and the model temperature disagrees with the V2 observations in the region r {approx}< 20 AU.en_US
dc.language.isoen_USen_US
dc.rightsThis published article is available in accordance with the publisher's policy. It may be subject to U.S. copyright law.en_US
dc.rights.urihttp://aas.org/publications/aas-copyright-policyen_US
dc.titleSelf-consistent model of the interstellar pickup protons, alfvenic turbulence, and core solar wind in the outer heliosphereen_US
dc.typeArticleen_US
dc.identifier.doi10.1088/0004-637X/757/1/74


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