Douglas E. Jones

TL;DR: In this article, the Pioneer 10 vector helium magnetometer was used along with models of the intrinsic magnetic field of Jupiter and its magnetosphere, and a model of the Jovian magnetosphere was presented in which the essential feature is an eastward current sheet that forms an annulus with Jupiter at the center.

TL;DR: Power spectra and fluctuations of interplanetary magnetic field from Mariner 4 data for solar active and quiet days as mentioned in this paper, for both active and non-active solar active days.

TL;DR: The vector helium magnetometer on the International Cometary Explorer observed the magnetic fields induced by the interaction of comet Giacobini-Zinner with the solar wind, which consisted of two lobes, containing oppositely directed fields with strengths up to 60 nanoteslas.

TL;DR: The Pioneer Saturn vector helium magnetometer has detected a bow shock and magnetopause at Saturn and has provided an accurate characterization of the planetary field, indicating that the field is more uniform than those of the Earth or Jupiter and consistent with Saturn having a relatively small core.

TL;DR: Abrupt changes in the amplitude of the magnetic fluctuations, in the field strength, and in the plasma properties, observed with Mariner V near Venus provide clear evidence for the presence of a bow shock around the planet, similar to, but much smaller than, that observed at Earth.