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Main Authors: Islam, H., Schwadron, N., Moebius, E., Rahmanifard, F., Sokol, J. M., Galli, A., McComas, D. J., Wurz, P., Fuselier, S. A., Fairchild, K., Heirtzler, D.
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.11784
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author Islam, H.
Schwadron, N.
Moebius, E.
Rahmanifard, F.
Sokol, J. M.
Galli, A.
McComas, D. J.
Wurz, P.
Fuselier, S. A.
Fairchild, K.
Heirtzler, D.
author_facet Islam, H.
Schwadron, N.
Moebius, E.
Rahmanifard, F.
Sokol, J. M.
Galli, A.
McComas, D. J.
Wurz, P.
Fuselier, S. A.
Fairchild, K.
Heirtzler, D.
contents The IBEX-Lo instrument on the Interstellar Boundary Explorer (IBEX) mission observes primary and secondary interstellar helium in its 4 lowest energy steps. Observations of these helium populations have been systematically analyzed and compared to simulations using the analytic full integration of neutrals model (aFINM). A systematic difference is observed between the simulations and observations of secondary helium during solar cycle (SC) 24. We show that elastic scattering of primary helium by solar wind protons, which redistributes atoms from the core of the flux distribution, provides an explanation of the observed divergence from simulations. We verify that elastic scattering forms a halo in the wings of the primary He distribution in the spin-angle direction. Correcting the simulation for the effects of elastic scattering requires an increase of the estimated density of primary helium compared to previous estimates by Ulysses/GAS. Thus, based on our analysis of IBEX observations and $χ^2$ minimization of simulation data that include the effects of elastic scattering, any estimation of neutral interstellar helium density at 1 AU by direct detection of the peak flux of neutral helium needs to be adjusted by $~\sim$ 10%
format Preprint
id arxiv_https___arxiv_org_abs_2409_11784
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle IBEX Observations of Elastic Scattering of Interstellar Helium by Solar Wind Particles
Islam, H.
Schwadron, N.
Moebius, E.
Rahmanifard, F.
Sokol, J. M.
Galli, A.
McComas, D. J.
Wurz, P.
Fuselier, S. A.
Fairchild, K.
Heirtzler, D.
Solar and Stellar Astrophysics
Astrophysics of Galaxies
The IBEX-Lo instrument on the Interstellar Boundary Explorer (IBEX) mission observes primary and secondary interstellar helium in its 4 lowest energy steps. Observations of these helium populations have been systematically analyzed and compared to simulations using the analytic full integration of neutrals model (aFINM). A systematic difference is observed between the simulations and observations of secondary helium during solar cycle (SC) 24. We show that elastic scattering of primary helium by solar wind protons, which redistributes atoms from the core of the flux distribution, provides an explanation of the observed divergence from simulations. We verify that elastic scattering forms a halo in the wings of the primary He distribution in the spin-angle direction. Correcting the simulation for the effects of elastic scattering requires an increase of the estimated density of primary helium compared to previous estimates by Ulysses/GAS. Thus, based on our analysis of IBEX observations and $χ^2$ minimization of simulation data that include the effects of elastic scattering, any estimation of neutral interstellar helium density at 1 AU by direct detection of the peak flux of neutral helium needs to be adjusted by $~\sim$ 10%
title IBEX Observations of Elastic Scattering of Interstellar Helium by Solar Wind Particles
topic Solar and Stellar Astrophysics
Astrophysics of Galaxies
url https://arxiv.org/abs/2409.11784