S. N. Borovikov¹ and N. V. Pogorelov^1,2

¹Center for Space Physics and Aeronomic Research, The University of Alabama in Huntsville, Huntsville, AL 35805, USA
²Department of Space Sciences, The University of Alabama in Huntsville, Huntsville, AL 35805, USA

Recent observations from the Voyager 1 spacecraft show that it is sampling the local interstellar medium (LISM). This is quite surprising because no realistic, steady-state model of the solar wind (SW) interaction with the LISM gives an inner heliosheath width as narrow as ~30 AU. This includes models that assume a strong redistribution of the ion energy to the tails in the pickup ion distribution function. We show that the heliopause (HP), which separates the SW from the LISM, is not a smooth tangential discontinuity, but rather a surface subject to Rayleigh–Taylor-type instabilities which can result in LISM material penetration deep inside the SW. We also show that the HP flanks are always subject to a Kelvin–Helmholtz instability. The instabilities are considerably suppressed near the HP nose by the heliospheric magnetic field in steady-state models, but reveal themselves in the presence of solar cycle effects. We argue that Voyager 1 may be in one such instability region and is therefore observing plasma densities much higher than those in the pristine SW. These results may explain the early penetration of Voyager 1 into the LISM. They also show that there is a possibility that the spacecraft may start sampling the SW again before it finally leaves the heliosphere.

Reference
Borovikov SN and Pogorelov NV (2014) Voyager 1 near the heliopause.  The Astrophysical Journal Letters 783:L16.
[doi:10.1088/2041-8205/783/1/L16]

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