HST/GHRS Observations of the Interplanetary Medium Downwind and in the Inner Solar System

Abstract

view Abstract Citations (34) References (32) Co-Reads Similar Papers Volume Content Graphics Metrics Export Citation NASA/ADS HST/GHRS Observations of the Interplanetary Medium Downwind and in the Inner Solar System Clarke, John T. ; Lallement, Rosine ; Bertaux, Jean-Loup ; Quemerais, Eric Abstract We present high dispersion spectra of the interplanetary medium (1PM) hydrogen Lyα emission along lines of sight to infinity and to Mars, obtained with the Hubble Space Telescope (HST) and Goddard High Resolution Spectrograph (GHRS) in 1991 May, including a detailed description of the data analysis procedures. The observed 1PM emission at 46° from the downwind direction has a line of sight bulk velocity of 13.6 km s-1. The line profile is significantly broader than expected for the measured 8000 K temperature of the 1PM, due in part to an increased velocity dispersion resulting from selection effects in the near-solar environment. The 1PM line profile is well fitted by a model of the 1PM flow through the solar system, with the best fit derived for a H inflow velocity far from the Sun of 21 km s-1. This derived H inflow speed in the solar system is significantly less than the 26 km s-1 independently determined for both the local interstellar medium and the He inflow speed in the solar system. This may be due to a deceleration of the H inflow from charge exchange with solar wind protons in the heliospheric interface region, as suggested by independent models. We also find that the column of emission along the line of sight from the Earth to Mars is roughly ½ of the total emission observed to infinity, suggesting a significant "filling in" of the solar ionization cavity compared with existing models. The general method of observing isolated columns of interplanetary medium gas along the lines of sight to other planets is demonstrated to be a powerful technique for determining the properties of the 1PM flow within the solar system and particularly in the ionization region near the Sun. Publication: The Astrophysical Journal Pub Date: August 1995 DOI: 10.1086/176018 Bibcode: 1995ApJ...448..893C Keywords: INTERPLANETARY MEDIUM; SUN: SOLAR WIND; ULTRAVIOLET: SOLAR SYSTEM full text sources ADS | data products MAST (1) ESA (1)