Solar cycle variations in the neutral exosphere inferred from the location of the Venus bow shock

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Solar cycle variations in the neutral exosphere inferred from the location of the Venus bow shock

Russell, C.T. / Chou, E. / Luhmann, J.G. / Brace, L.H.

Abstract Solar UV and EUV varies significantly during the solar cycle. Pioneer Venus can measure this variation both directly and indirectly. A direct measure of the EUV is obtained from the photoelectron current of the Langmuir probe when the spacecraft is in the solar wind. The indirect measure is by monitoring the location of the Venus bow shock. The UV and EUV both heat the upper atmosphere and ionize it. When solar activity is high, the upper atmosphere should be ionized more rapidly. This effect adds a greater number of planetary ions to the magnetosheath plasma as it flows by Venus. It is this increase in mass flow that causes the Venus bow shock to move away from its solar minimum location. Pioneer Venus has now monitored the location of the bow shock for an entire solar cycle. We find that the bow shock location is well correlated with the variation in EUV flux as measured by the Langmuir probe. In the data we have examined to date the bow shock is farther from Venus than expected from the sunspot number or 10.7 cm solar radio flux, indicating that solar UV radiation may be even stronger at the present time than would be predicted from the relationships determined during the previous solar cycle.