TRACKING THE SOLAR CYCLE THROUGH IBEX OBSERVATIONS OF ENERGETIC NEUTRAL ATOM FLUX VARIATIONS AT THE HELIOSPHERIC POLES

ABSTRACT With seven years of Interstellar Boundary Explorer (IBEX) observations, from 2009 to 2015, we can now trace the time evolution of heliospheric energetic neutral atoms (ENAs) through over half a solar cycle. At the north and south ecliptic poles, the spacecraft attitude allows for continuous...

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Bibliographic Details
Published in:The Astrophysical journal 2016-12, Vol.833 (2), p.277
Main Authors: Reisenfeld, D. B., Bzowski, M., Funsten, H. O., Fuselier, S. A., Galli, A., Janzen, P. H., Karna, N., Kubiak, M. A., McComas, D. J., Schwadron, N. A., Sokó, J. M.
Format: Article
Language:English
Subjects:
ACCURACY
Astrophysics
ASTROPHYSICS, COSMOLOGY AND ASTRONOMY
Coronal holes
Correlation analysis
CORRELATIONS
Dynamic pressure
Energetic neutral atoms
ENERGY SPECTRA
Fluctuations
Fluxes
HELIOSPHERE
Interstellar
ISM: general
KEV RANGE
MAGNETOHYDRODYNAMICS
magnetohydrodynamics (MHD)
Neutral atoms
PLASMA PRESSURE
plasmas
Poles
SOLAR CYCLE
Solar energy
SOLAR WIND
Solar wind dynamics
SPACE VEHICLES
Spacecraft
SUN
Sun: heliosphere
TIME RESOLUTION
Travel time
VARIATIONS
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Summary:ABSTRACT With seven years of Interstellar Boundary Explorer (IBEX) observations, from 2009 to 2015, we can now trace the time evolution of heliospheric energetic neutral atoms (ENAs) through over half a solar cycle. At the north and south ecliptic poles, the spacecraft attitude allows for continuous coverage of the ENA flux; thus, signal from these regions has much higher statistical accuracy and time resolution than anywhere else in the sky. By comparing the solar wind dynamic pressure measured at 1 au with the heliosheath plasma pressure derived from the observed ENA fluxes, we show that the heliosheath pressure measured at the poles correlates well with the solar cycle. The analysis requires time-shifting the ENA measurements to account for the travel time out and back from the heliosheath, which allows us to estimate the scale size of the heliosphere in the polar directions. We arrive at an estimated distance to the center of the ENA source region in the north of 220 au and in the south a distance of 190 au. We also find a good correlation between the solar cycle and the ENA energy spectra at the poles. In particular, the ENA flux for the highest IBEX energy channel (4.3 keV) is quite closely correlated with the areas of the polar coronal holes, in both the north and south, consistent with the notion that polar ENAs at this energy originate from pickup ions of the very high speed wind (∼700 km s−1) that emanates from polar coronal holes.
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/833/2/277