Litcius/Paper detail

Variation of the Interplanetary Shocks in the Inner Heliosphere

Rajkumar Hajra

2021The Astrophysical Journal14 citationsDOIOpen Access PDF

Abstract

Abstract Observations of the solar wind plasma and interplanetary magnetic field in the ecliptic plane by the Voyager 1 and 2 spacecraft are utilized to study the variation of the interplanetary shocks (with magnetosonic Mach number >1) encountered in the inner heliosphere, between ∼1 and ∼15 au from the Sun. The overwhelming majority (∼76%) of the shocks are fast forward (FF) moving at an average shock speed ( V sh ) of ∼458 km s −1 away from the Sun, and only ∼24% are fast reverse (FR) shocks with an average V sh of ∼323 km s −1 toward the Sun. About ∼89% of the shocks are quasi-perpendicular with an average shock angle ( θ Bn ) of ∼72° relative to the ambient magnetic field, and only ∼11% are quasi-parallel with an average θ Bn of ∼32°. While the interplanetary coronal mass ejections are the major (∼89%) driver of the FF shocks, a significant part (∼41%) of the FR shocks are associated with the corotating interaction regions. The shock occurrence rate, with a peak at the heliocentric distance ( R h ) of ∼5 au, exhibits a clear decrease with the increasing R h . While the shock strength and propagation angle do not exhibit any systematic change with R h , V sh increases with the increasing R h at a rate of ∼11 km s −1 au −1 .

Topics & Concepts

PhysicsHeliosphereEclipticInterplanetary spaceflightSolar windAstrophysicsInterplanetary magnetic fieldInterplanetary mediumShock (circulatory)Coronal mass ejectionAstronomyPlasmaNuclear physicsInternal medicineMedicineSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsAstro and Planetary Science