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More surprises for the Voyager mission at the edge of the solar system
Jun 22, 2011
Unexpected observations by NASA's Voyager 1 spacecraft have astronomers once again revising their theories about the radial extent of the heliosheath – the heated outer shell of the solar system. Recent data from the spacecraft have shown a gentle decrease in the velocity of the solar wind at the heliopause – the outer boundary of the heliosheath – not the abrupt discontinuity predicted by current theories. Also, scientists looking at other data from both Voyager 1 and Voyager 2 have found that the magnetic field in the heliosheath is a tumultuous foam of magnetic bubbles, as compared to the graceful arcs of magnetic field lines they had expected.
Launched nearly 34 years ago, and now cruising through space some 14.4 billion kilometres from the Sun, both Voyager 1 and Voyager 2 are currently in the heliosheath. A team of scientists led by Stamatios Krimigis of the Johns Hopkins University Applied Physics Laboratory, Maryland, US have been using Voyager's Low-Energy Charged Particle instrument to determine the solar wind's velocity. Voyager 1 has crossed into an area where the velocity of the solar wind has slowed gradually to zero since 2007. As Voyager 1 has moved outwards over the past three years, the radial velocity of the wind has been decreasing almost linearly from 208,000 km/h to zero; while the transverse component that flows sideways relative to the Sun is also trending toward zero.
"This tells us that Voyager 1 may be close to the heliopause, or the boundary at which the interstellar medium basically stops the outflow of solar wind," says Krimigis. "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."
At the same time, another team from NASA has found distinct bubbles of magnetism, each about 160 million kilometres wide, in the heliosheath. Voyager 1 entered the "foam-zone" in around 2007 and Voyager 2 followed about a year later, according to the researchers, and it would take either one of the probes weeks to cross just one bubble.
"The Sun's magnetic field extends all the way to the edge of the solar system," explains Merav Opher of Boston University, US. "Because the Sun spins, its magnetic field becomes twisted and wrinkled, a bit like a ballerina's skirt. Far, far away from the Sun, where the Voyagers are now, the folds of the skirt bunch up."
When a magnetic field gets severely folded, lines of magnetic force criss-cross and reorganize themselves into foamy magnetic bubbles. This magnetic reconnection is the same energetic process underlying solar flares. The actual bubbles appear to be self-contained and disconnected from the broader solar magnetic field.
Sensor readings from the spacecraft show that the Voyagers sometimes travel in and out of bubbles in the foam – zone, while at other times they seem to move through foam-free regions. This further complicates our picture of the heliosphere.
The researchers suggest that the foam zone might protect the solar system from cosmic rays, which would be trapped inside the bubbles and have to travel through individual bubbles before arriving at relatively smoother magnetic field lines to travel towards the Sun itself. "The magnetic bubbles appear to be our first line of defence against cosmic rays," points out Opher. "We haven't figured out yet if this is a good thing or not."
More surprises for the Voyager mission at the edge of the solar system - physicsworld.com
Jun 22, 2011
Unexpected observations by NASA's Voyager 1 spacecraft have astronomers once again revising their theories about the radial extent of the heliosheath – the heated outer shell of the solar system. Recent data from the spacecraft have shown a gentle decrease in the velocity of the solar wind at the heliopause – the outer boundary of the heliosheath – not the abrupt discontinuity predicted by current theories. Also, scientists looking at other data from both Voyager 1 and Voyager 2 have found that the magnetic field in the heliosheath is a tumultuous foam of magnetic bubbles, as compared to the graceful arcs of magnetic field lines they had expected.
Launched nearly 34 years ago, and now cruising through space some 14.4 billion kilometres from the Sun, both Voyager 1 and Voyager 2 are currently in the heliosheath. A team of scientists led by Stamatios Krimigis of the Johns Hopkins University Applied Physics Laboratory, Maryland, US have been using Voyager's Low-Energy Charged Particle instrument to determine the solar wind's velocity. Voyager 1 has crossed into an area where the velocity of the solar wind has slowed gradually to zero since 2007. As Voyager 1 has moved outwards over the past three years, the radial velocity of the wind has been decreasing almost linearly from 208,000 km/h to zero; while the transverse component that flows sideways relative to the Sun is also trending toward zero.
"This tells us that Voyager 1 may be close to the heliopause, or the boundary at which the interstellar medium basically stops the outflow of solar wind," says Krimigis. "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."
At the same time, another team from NASA has found distinct bubbles of magnetism, each about 160 million kilometres wide, in the heliosheath. Voyager 1 entered the "foam-zone" in around 2007 and Voyager 2 followed about a year later, according to the researchers, and it would take either one of the probes weeks to cross just one bubble.
"The Sun's magnetic field extends all the way to the edge of the solar system," explains Merav Opher of Boston University, US. "Because the Sun spins, its magnetic field becomes twisted and wrinkled, a bit like a ballerina's skirt. Far, far away from the Sun, where the Voyagers are now, the folds of the skirt bunch up."
When a magnetic field gets severely folded, lines of magnetic force criss-cross and reorganize themselves into foamy magnetic bubbles. This magnetic reconnection is the same energetic process underlying solar flares. The actual bubbles appear to be self-contained and disconnected from the broader solar magnetic field.
Sensor readings from the spacecraft show that the Voyagers sometimes travel in and out of bubbles in the foam – zone, while at other times they seem to move through foam-free regions. This further complicates our picture of the heliosphere.
The researchers suggest that the foam zone might protect the solar system from cosmic rays, which would be trapped inside the bubbles and have to travel through individual bubbles before arriving at relatively smoother magnetic field lines to travel towards the Sun itself. "The magnetic bubbles appear to be our first line of defence against cosmic rays," points out Opher. "We haven't figured out yet if this is a good thing or not."
More surprises for the Voyager mission at the edge of the solar system - physicsworld.com
