Implications of solar wind suprathermal tails for IBEX ENA images of the heliosheath

Details Implications of solar wind suprathermal tails for IBEX ENA images of the heliosheath Implications of solar wind suprathermal tails for IBEX ENA images of the heliosheath

Jun 2008

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2008jgra..11306102p&link_type=abstract

Journal of Geophysical Research, Volume 113, Issue A6, CiteID A06102

Physics

14

Interplanetary Physics: Heliopause And Solar Wind Termination, Interplanetary Physics: Heliosphere/Interstellar Medium Interactions, Interplanetary Physics: Neutral Particles (7837), Interplanetary Physics: Energetic Particles (7514), Interplanetary Physics: Solar Wind Plasma

Scientific paper

Decades of interplanetary measurements of the solar wind and other space plasmas have established that the suprathermal ion intensity distributions (j) are non-Maxwellian and are characterized by high-energy power law tails (j ~ E- $\kappa$ ). Recent analysis by Fisk and Gloeckler of suprathermal ion observations between 1-5 AU demonstrates that a particular differential intensity distribution function emerges universally between ~2-10 times the solar wind speed with $\kappa$ ~ 1.5. This power law tail is particularly apparent in downstream distributions beyond reverse shocks associated with corotating interaction regions. Similar power law tails have been observed in the downstream flow beyond the termination shock by the Low Energy Charged Particle instrument on both Voyager 1 and Voyager 2. Using kappa distributions with internal energy, density, and bulk flow derived from large-scale magnetohydrodynamic models, we calculate the simulated flux of energetic neutral atoms (ENAs) produced in the heliosheath by charge exchange between solar wind protons and interstellar hydrogen. We then produce simulated ENA maps of the heliosheath, such as will be measured by the Interstellar Boundary Explorer Mission (IBEX). We also estimate the expected signal to noise and background ratio for IBEX. The solar wind suprathermal tail significantly increases the ENA flux within the IBEX energy range, ~0.01-6 keV, by more than an order of magnitude at the highest energies over the estimates using a Maxwellian. It is therefore essential to consider suprathermal tails in the interpretation of IBEX ENA images and theoretical modeling of the heliospheric termination shock.

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