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Lösen Sie das Geheimnis des Sonnensystems

Saturnringe Kunstillustration

Ein erfahrener Astronom hat entdeckt, dass das riesige Ringsystem des Saturn die obere Atmosphäre des Planeten aufheizt, ein Phänomen, das in unserem Sonnensystem bisher nicht beobachtet wurde. Durch die Analyse von 40 Jahren UV-Daten von mehreren Weltraummissionen, darunter das Hubble-Weltraumteleskop der NASA, die Cassini-Sonden, Voyagers 1 und 2 und der International Ultraviolet Explorer, fand der Forscher heraus, dass Eisring-Partikel in die Atmosphäre des Saturn fallen und dort verursacht werden die Temperatur zu steigen. Diese bahnbrechende Entdeckung wirft nicht nur Licht auf die unerwartete Wechselwirkung zwischen dem Planeten und seinen Ringen, sondern eröffnet auch die Möglichkeit, diese Informationen zu nutzen, um das Vorhandensein von Saturn-ähnlichen Ringsystemen um die äußeren Planeten vorherzusagen.

Ein Regen aus Eispartikeln beeinflusst das Wetter des Riesenplaneten

Universum[{“ attribute=““>Saturn is easily recognizable for its opulent ring system that can easily be seen through a small telescope. Astronomers have now found that the rings are not as placid as they look. The icy rings particles are raining down onto Saturn’s atmosphere. This is heating the upper atmosphere. It took a collection of 40 years’ worth of Saturn observations, gleaned from four NASA planetary missions to come to this conclusion. Hubble Space Telescope observations were used to tie together all the evidence, collected in ultraviolet light. These results may be applied to determine if similar ring systems encircle planets orbiting other stars. Their rings would be too far away to be seen, but ultraviolet light spectroscopy of the planets could yield clues.

Hubble Saturn 2021

Hubble’s look at Saturn on September 12, 2021, shows rapid and extreme color changes of the bands in the planet’s northern hemisphere, where it was early autumn. The bands have varied throughout Hubble observations in both 2019 and 2020. Notably, Saturn’s iconic hexagonal storm, first discovered in 1981 by the Voyager 2 spacecraft, was difficult to distinguish in 2020, but it is again clearly evident in 2021. Hubble’s Saturn image catches the planet following the southern hemisphere’s winter, evident in the lingering blue-ish hue of the south pole.Credit: NASA, ESA, A. Simon (NASA-GSFC), and M. H. Wong (UC Berkeley); Image Processing: A. Pagan (STScI)

Hubble Space Telescope Finds Saturn’s Rings Heating Its Atmosphere

The secret has been hiding in plain view for 40 years. But it took the insight of a veteran astronomer to pull it all together within a year, using observations of Saturn from NASA’s Hubble Space Telescope and retired Cassini probe, in addition to the Voyager 1 and 2 spacecraft and the retired International Ultraviolet Explorer mission.

The discovery: Saturn’s vast ring system is heating the giant planet’s upper atmosphere. The phenomenon has never before been seen in the solar system. It’s an unexpected interaction between Saturn and its rings that potentially could provide a tool for predicting if planets around other stars have glorious Saturn-like ring systems, too.

The telltale evidence is an excess of ultraviolet radiation, seen as a spectral line of hot hydrogen in Saturn’s atmosphere. The bump in radiation means that something is contaminating and heating the upper atmosphere from the outside.

The most feasible explanation is that icy ring particles raining down onto Saturn’s atmosphere cause this heating. This could be due to the impact of micrometeorites, solar wind particle bombardment, solar ultraviolet radiation, or electromagnetic forces picking up electrically charged dust. All this happens under the influence of Saturn’s gravitational field pulling particles into the planet. When NASA’s Cassini probe plunged into Saturn’s atmosphere at the end of its mission in 2017, it measured the atmospheric constituents and confirmed that many particles are falling in from the rings.

“Though the slow disintegration of the rings is well known, its influence on the atomic hydrogen of the planet is a surprise. From the Cassini probe, we already knew about the rings’ influence. However, we knew nothing about the atomic hydrogen content,” said Lotfi Ben-Jaffel of the Institute of Astrophysics in Paris and the Lunar & Planetary Laboratory, University of Arizona, author of a paper published on March 30 in the Planetary Science Journal.

Saturn Lyman alpha Image

This is a composite image showing the Saturn Lyman-alpha bulge, an emission from hydrogen which is a persistent and unexpected excess detected by three distinct NASA missions, namely Voyager 1, Cassini, and the Hubble Space Telescope between 1980 and 2017. A Hubble near-ultraviolet image, obtained in 2017 during the Saturn summer in the northern hemisphere, is used as a reference to sketch the Lyman-alpha emission of the planet. The rings appear much darker than the planet’s body because they reflect much less ultraviolet sunlight. Above the rings and the dark equatorial region, the Lyman-alpha bulge appears as an extended (30 degree) latitudinal band that is 30 percent brighter than the surrounding regions. A small fraction of the southern hemisphere appears between the rings and the equatorial region, but it is dimmer than the northern hemisphere. North of the bulge region (upper-right portion of image), the disk brightness declines gradually versus latitude toward the bright aurora region that is here shown for reference (not at scale). A dark spot inside the aurora region represents the footprint of the spin axis of the planet.
It’s believed that icy rings particles raining on the atmosphere at specific latitudes and seasonal effects cause an atmospheric heating that makes the upper atmosphere hydrogen reflect more Lyman-alpha sunlight in the bulge region. This unexpected interaction between the rings and the upper atmosphere is now investigated in depth to define new diagnostic tools for estimating if distant exoplanets have extended Saturn-like ring systems.
Credit: NASA, ESA, Lotfi Ben-Jaffel (IAP & LPL)

“Everything is driven by ring particles cascading into the atmosphere at specific latitudes. They modify the upper atmosphere, changing the composition,” said Ben-Jaffel. “And then you also have collisional processes with atmospheric gasses that are probably heating the atmosphere at a specific altitude.”

Ben-Jaffel’s conclusion required pulling together archival ultraviolet-light (UV) observations from four space missions that studied Saturn. This includes observations from the two NASA Voyager probes that flew by Saturn in the 1980s and measured the UV excess. At the time, astronomers dismissed the measurements as noise in the detectors. The Cassini mission, which arrived at Saturn in 2004, also collected UV data on the atmosphere (over several years). Additional data came from Hubble and the International Ultraviolet Explorer, which launched in 1978, and was an international collaboration between NASA, ESA (European Space Agency), and the United Kingdom’s Science and Engineering Research Council.

But the lingering question was whether all the data could be illusory, or instead reflected a true phenomenon on Saturn.

The key to assembling the jigsaw puzzle came in Ben-Jaffel’s decision to use measurements from Hubble’s Space Telescope Imaging Spectrograph (STIS). Its precision observations of Saturn were used to calibrate the archival UV data from all four other space missions that have observed Saturn. He compared the STIS UV observations of Saturn to the distribution of light from multiple space missions and instruments.

“When everything was calibrated, we saw clearly that the spectra are consistent across all the missions. This was possible because we have the same reference point, from Hubble, on the rate of transfer of energy from the atmosphere as measured over decades,” Ben-Jaffel said. “It was really a surprise for me. I just plotted the different light distribution data together, and then I realized, wow— it’s the same.”

Four decades of UV data cover multiple solar cycles and help astronomers study the Sun’s seasonal effects on Saturn. By bringing all the diverse data together and calibrating it, Ben-Jaffel found that there is no difference to the level of UV radiation. “At any time, at any position on the planet, we can follow the UV level of radiation,” he said. This points to the steady “ice rain” from Saturn’s rings as the best explanation.

“We are just at the beginning of this ring characterization effect on the upper atmosphere of a planet. We eventually want to have a global approach that would yield a real signature about the atmospheres on distant worlds. One of the goals of this study is to see how we can apply it to planets orbiting other stars. Call it the search for ‘exo-rings.’”

Reference: “The Enigmatic Abundance of Atomic Hydrogen in Saturn’s Upper Atmosphere” by Lotfi Ben-Jaffel, Julianne I. Moses, Robert A. West, Klaus-Michael Aye, Eric T. Bradley, John T. Clarke, Jay B. Holberg and Gilda E. Ballester, 30 March 2023, Planetary Science Journal.
DOI: 10.3847/PSJ/acaf78

The Hubble Space Telescope is a project of international cooperation between NASA and ESA. NASA’s Goddard Space Flight Center in Greenbelt, Maryland, manages the telescope. The Space Telescope Science Institute (STScI) in Baltimore conducts Hubble science operations. STScI is operated for NASA by the Association of Universities for Research in Astronomy, in Washington, D.C.

Magda Franke

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