Archiv: Voyager 2 (spacecraft)
5 Spacecraft Are Leaving The Solar System. What Did They See In Their Journey?
Pioneer 10: Pioneer 10 was launched in 1972 to explore the planets of the solar system. It achieved the first flyby of Mars, the first trip through the asteroid belt, and Jupiter‘s first flyby. It was the first time NASA had used nuclear energy to power its spacecraft. So, after Pioneer 10 passed Jupiter in 1973, it still had ample energy to keep going. Initially planned for 21 months, it continued to communicate with Earth for a total of 30 years.
What Spacecraft Will Enter Interstellar Space Next?
(January 30, 2019)
This milestone — reaching interstellar space — can be considered leaving the solar system by a certain definition. Let‘s be clear about what that entails. In 1990, the New York Times reported that Pioneer was reported to leave the solar system when it flew past Neptune‘s orbit. That‘s not what Voyager 2‘s scientists used to make their determination, however. Instead, the more recent measurements consider the crossing of the sun‘s heliopause, the theoretical boundary to its heliosphere, to be the determining factor for entering interstellar space. The heliosphere is a bubble of charged particles created by and flowing past the sun. Scientists use it to mark where interstellar space begins.
Raumsonde „Pioneer 10“ 40 Jahre aus Sonnensystem heraus
Am 13. Juni 1983 durchflog „Pioneer 10“ die Umlaufbahn des Neptun und wurde so laut NASA zum ersten menschengemachten Raumschiff, das am weitestentfernten bekannten Planeten unseres Sonnensystems vorbeiflog. Neptun ist im Mittel etwa 4,5 Milliarden Kilometer von der Sonne entfernt.
Mit „Pioneer 11“ und den beiden „Voyager“-Sonden folgten später ähnliche Missionen. „Voyager 1“ überholte „Pioneer 10“ schließlich als am weitesten von der Erde entferntes menschengemachtes Objekt. Zum bisher letzten Mal schickte „Pioneer 10“ im Jänner 2003 Daten, ein Kontaktversuch im März 2006 scheiterte.
Scientists found a secret in old Voyager 2 data. This is why we need to revisit Uranus and Neptune
„The way in which the sun‘s solar wind interacts with Uranus is unlike any planet we‘ve ever explored,“ DiBraccio said. „We are left with questions regarding to what degree the solar wind affects dynamics at Uranus such as transporting atmospheric particles, transferring energy and even changing the planet‘s climate over time.“
Voyager 2 shut off its instruments to save power, NASA says
Voyager 2 was only expected to last for five years, but it‘s still operating 42 years after launch.
Yet Saturday, the probe did experience a bit of a hiccup 11 billion miles from Earth, according to NASA.
„Magnetische Wand“ im interstellaren Raum
(04.11.2019)
„Voyager 2“ hat die Grenze der Heliosphäre in nur einem Tag passiert, was einen scharfen Übergang zum lokalen interstellaren Medium bedeutet. „Die alte, historische Vorstellung, dass der Sonnenwind sich einfach allmählich reduziert, je weiter man in den interstellaren Raum vordringt, trifft nicht zu“, erläuterte „Voyager“-Forscher Don Gurnett von der Universität von Iowa, Ko-Autor einer der Analysen. „Wir haben mit ‚Voyager 2‘ und vorher mit ‚Voyager 1 gezeigt, dass es dort draußen eine ausgeprägte Grenze gibt.“
Voyager 2 reveals the dynamic, complex nature of the solar system’s edge
Despite encountering the heliopause at different times and locations — the two spacecraft are farther from each other than each are from the sun — some things looked similar. The magnetic field looked pretty much the same on the inside and the outside of the boundary: Somehow, the sun’s magnetic field lines up nearly perfectly with the local galactic field, contrary to expectations. “We could dismiss that as coincidence in one case, but we can’t do that twice,” study coauthor Leonard Burlaga, of NASA’s Goddard Space Flight Center in Greenbelt, Md., said in the news conference.
Energetic charged particle measurements from Voyager 2 at the heliopause and beyond
Here, we report measurements of energetic (>28 keV) charged particles on V2 from the interface region between the heliosheath, dominated by heated solar wind plasma, and the VLISM, expected to contain cold non-solar plasma and the Galactic magnetic field. The number of particles of solar origin began a gradual decrease on 7 August 2018 (118.2 au), while those of Galactic origin (Galactic cosmic rays) increased ~20% in number over a period of a few weeks. An abrupt change occurred on 5 November when V2 was located at 119 au, with a decrease in the number of particles at energies of >28 keV and a corresponding increase in the number of Galactic cosmic rays of energy E > 213 MeV. T
Nasa‘s Voyager 2 sends back its first signal from interstellar space
The shape depends, in a complex way, on the relative strengths of the magnetic fields inside and outside of the heliosphere, and the latest measurements are suggestive of a more spherical form.
„Magnetische Wand“ im interstellaren Raum
Nach Jahrzehnten haben sie nun die Grenze der Heliosphäre passiert und sind damit auf dem Weg zu den Sternen.
Pressure Runs High at Edge of Solar System
(08.10.2019)
The scientists noted that the change in galactic cosmic rays wasn’t exactly identical at both spacecraft. At Voyager 2 inside the heliosheath, the number of cosmic rays decreased in all directions around the spacecraft. But at Voyager 1, outside the solar system, only the galactic cosmic rays that were traveling perpendicular to the magnetic field in the region decreased.
Voyager Mission Reveals Unexpected Pressure at The Edge of The Solar System
(10.10.2019)
There was one other surprise to come. The wave‘s passage lined up with an apparent drop in the intensity of high speed particles called cosmic rays. The fact each of the probes experienced this same thing in two different ways gives astrophysicists yet another mystery to solve.
„Trying to understand why the change in the cosmic rays is different inside and outside of the heliosheath remains an open question,“ says Rankin.
What Inflates the Solar Bubble? Voyagers Count What’s Missing
(17.10.2019)
We’re all living in a bubble.
In fact, the Sun and the entire solar system exist in a bubble that separates us from interstellar space. But what keeps that bubble inflated? A recent paper found that scientists can account for only 82% of the pressure that steadies the solar bubble, or heliosphere, against pressure from galactic headwinds. The source of 18% of the pressure is still unknown.
When Neptune got its stunning close-up: The Voyager 2 flyby, 30 years later
They discovered that Neptune‘s magnetic field was tipped on its side. They found a giant spot called the Great Dark Spot on the planet, similar to Jupiter‘s Great Red Spot. But the event was passing, because it was no longer there when the Hubble Space Telescope looked four years later.
NASA Voyager 2 Could Be Nearing Interstellar Space
(05.10.2018)
NASA‘s Voyager 2 probe, currently on a journey toward interstellar space, has detected an increase in cosmic rays that originate outside our solar system.
NASA Voyager 2 Nearing Interstellar Space, Measures Increase in Cosmic Rays
(06.10.2018)
NASA’s Voyager 2 probe, currently on a journey toward interstellar space, has detected an increase in cosmic rays that originate outside our solar system.
Nasa‘s Voyager 2 probe ‚leaves the Solar System‘
Decades and billions of kilometres. Voyager 1 departed Earth on 5 September 1977, a few days after its sister spacecraft, Voyager 2.
The pair‘s primary objective was to survey the planets Jupiter, Saturn, Uranus and Neptune – a task they completed in 1989.
Flight Path of Voyager-1 & 2 into Interstellar Space (40th Anniversary)
The termination shock and heliopause are the ‚boundaries‘ created when the plasma between the stars interacts with the plasma flowing outward from the Sun.
Excitement Increases as Voyager 2 sees a decrease in Heliospheric Particles
(14.11.2018) In the following graph of the Low Energy Telescope data, right around the beginning of November, you’ll notice a pretty dramatic change: All of a sudden, the Voyager 2 counting rate of low-energy particles dropped, although it hasn’t yet dropped to nearly zero as it did when Voyager 1 entered interstellar space. Scientists will keep their eye on these graphs …
Excitement goes up ? as @NASAVoyager 2‘s count of heliospheric particles goes down These low-energy particles originate within the Sun’s bubble of magnetic influence — the heliosphere — and their count should drop to near-zero in interstellar space:
(17.11.2018)
NASA‘s Voyager 2 probe detects increase in cosmic rays as it approaches the heliosphere
Cosmic rays are fast-moving particles that originate outside the solar system. Some of these cosmic rays are blocked by the heliosphere, so mission planners expect that Voyager 2 will measure an increase in the rate of cosmic rays as it approaches and crosses the boundary of the heliosphere.
NASA‘s Voyager 2 Probe Is About To Slip Beyond The Boundaries Of Our Solar System And Into Interstellar Space
Voyager 2 began it‘s journey away from Earth back in 1977 and is roughly 11 billion miles from home. In 2007 it entered the outermost layer of the heliosphere, and now based on data recorded by the probe‘s Cosmic Ray Subsystem instrument, NASA scientists say there‘s a good chance that it is about to reach the boundary (known as the heliopause) and join Voyager 1 in the history books as the second human-made object to go interstellar. Back in August, the cosmic rays hitting the probe increased by five percent.