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Live From The International Space Station

Wednesday, June 15, 2011


It was not projected to happen until 2014

Voyager
The Voyager 1 spacecraft might be crossing the interstellar boundary at the edge of our solar system much sooner than scientists thought, according to new data from the probe itself and from the Cassini spacecraft. This milestone — marking the first Earth-born object ever to leave the sun’s field of influence — could actually happen any day now. According to scientists' best estimates, it will happen by the end of 2012.
Voyager 1 is careening away from the sun at 114,155 miles per hour, covering a mile in about 0.03 seconds, able to circumnavigate the globe in under 15 minutes. At that blinding speed, the spacecraft travels a billion miles every three years. Right now, it’s cruising through the heliosheath, a zone that marks the outward boundary of the huge bubble of charged particles blowing out of the sun.
Scientists are not sure exactly how thick the heliosheath is, so they can’t pinpoint exactly when the spacecraft will burst through the border, known as the heliopause. But new data shows that it’s likely between 10 and 14 billion miles from the sun, with a best estimate of approximately 11 billion miles. Voyager 1 is a little more than 10.8 billion miles away, so it could depart at any time, according to a new study published in the journalNature.
“Voyager 1 speeds outward a billion miles every three years, so we may not have long to wait,” said Ed Stone, Voyager project scientist, based at the California Institute of Technology in Pasadena.
Last spring, instruments on Voyager 1 noticed the solar wind, already slowing down from speeds of 150,000 miles per hour, had stopped. Specifically, the data showed that the speed of the charged particles hitting Voyager 1's outward face matched the spacecraft's own speed. Scientists thought this could be an anomaly at first, but as of this February, the wind was still not blowing, suggesting it has bumped up against pressure from the interstellar magnetic field in the region between stars.
This indicates a thick outer solar system transition zone that had not been predicted before, and that Voyager may be very close to the heliopause, the border crossing between the sun's sphere of influence and that of interstellar space.
"The extended transition layer of near-zero outflow contradicts theories that predict a sharp transition to the interstellar flow at the heliopause — and means, once again, we will need to rework our models," said Stamatios Krimigis of the Johns Hopkins University Applied Physics Laboratory, principal investigator on the instrument that made this finding.
This is the second new breakthrough from the 34-year-old Voyager craft in as many weeks. Last week, we learned the spacecraft were flying through a foamy froth of magnetic bubbles, a bizarre phenomenon that results from the criss-crossing and rejoining of magnetic field lines at the edges of the solar system. The bubbles impact the rate at which cosmic rays can penetrate the sun’s protective sheath, but it’s not quite clear whether they’re helpful (trapping cosmic rays) or harmful (helping rays hitch a ride toward the sun, and us).
This latest data comes from Voyager's low-energy charged particle instrument (it's on the boom to the right in the diagram below) and Cassini’s magnetospheric imaging instrument. The Cassini instrument measures neutral atoms streaming into the solar system from the outside, a Jet Propulsion Laboratory news release explains. The new calculations led scientists to estimate the heliosheath’s size at roughly 11 billion miles.
Voyager Probe: On the boom to the right, the Cosmic Ray Science instrument, Low Energy Charged Particle detector, the Infrared Spectrometer and Radiometer, Ultraviolet Spectrometer, Photopolarimeter and Wide and Narrow Angle Cameras are visible. The bright gray square is an optical calibration plate for the instruments. The Golden Record, containing images and sounds from Earth, is the yellow circle on the main spacecraft body. The dish is the spacecraft's high-gain antenna for communications with Earth. The magnetometer boom stretches out to the upper left. The radio isotope thermoelectric generators, Voyager's power source, are visible to the lower left. The two long thin rods extending out to the left are antennas used by the Plasma Wave instrument. The Planetary Radio instrument also used these antennas when it was turned on.  NASA
Voyager 2 is about 9 billion miles away, so it will cross the boundary after its twin.
The Voyager probes launched in 1977 on a multi-decade journey through the solar system, taking photos and measurements of the Jupiter and Saturn systems, along with Uranus and Neptune. Voyager 2 remains the only spacecraft to ever visit those two distant giants.
The spacecraft used the faraway planets’ gravity to gain momentum, allowing them to slingshot away from the sun and toward interstellar space. NASA still communicates with them every day.
Scientists will be able to tell when Voyager 1 crosses into true interstellar space, because there should be a sudden drop in the density of hot particles from the heliosheath, and an
increase in the density of cold particles from the interstellar plasma. No one knows exactly what will happen when Voyager 1 crosses that boundary, however. But it sounds like we could find out really soon.

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