"We've just crossed the boundary into Jupiter's home turf," said Juno Principal Investigator Scott Bolton of Southwest Research Institute, San Antonio.
"We're closing in fast on the planet itself and already gaining valuable data," said Bolton.
Juno is on course to swing into orbit around Jupiter on July 4. Science instruments on board detected changes in the particles and fields around the spacecraft as it passed from an environment dominated by the interplanetary solar wind into Jupiter's magnetosphere.
"The bow shock is analogous to a sonic boom," said William Kurth of the University of Iowa in Iowa City, lead co-investigator for the Waves investigation.
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"The solar wind blows past all the planets at a speed of about a million miles per hour, and where it hits an obstacle, there's all this turbulence," said Kurth.
The obstacle is Jupiter's magnetosphere, which is the largest structure in the solar system.
And that is the shorter dimension of the teardrop-shaped structure; the dimension extending outward behind Jupiter has a length about five times the distance between Earth and the Sun.
Out in the solar wind a few days ago, Juno was speeding through an environment that has about 16 particles per cubic inch. Once it crossed into the magnetosphere, the density was about a hundredfold less.
The density is expected to climb again, inside the magnetosphere, as the spacecraft gets closer to Jupiter itself.
While this transition from the solar wind into the magnetosphere was predicted to occur at some point in time, the structure of the boundary between those two regions proved to be unexpectedly complex, with different instruments reporting unusual signatures both before and after the nominal crossing.