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Fly Slowly Through Enceladus’ Plumes to Detect Life

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Enceladus is blasting water into space from the jets at its southern pole. This makes it the ideal place to send a dedicated mission, flying the spacecraft through the plumes with life-detection instruments s. A new study suggests that a spacecraft must proceed carefully through the plumes, keeping its speed below 4.

2 km/second (2,236 miles per hour). Using a specialized, custom-built aerosol impact spectrometer at these speeds will allow fragile amino acids to be captured by the spacecraft’s sample collector. Any faster, they’ll shatter, providing inclusive results.

One of the biggest surprises of the 20-year Cassini mission to the Saturn system was the discovery of the active geysers at Enceladus. At only about 500 km (310 miles) in diameter, the ice-covered Enceladus should be too small and too far from the Sun to be active. Instead, this little moon is one of the most geologically dynamic objects in the Solar System.

Cassini’s stunning backlit images of this moon show plumes erupting in Yellowstone-like geysers, emanating from tiger-stripe-shaped fractures in the moon’s surface. The discovery of the geysers took on more importance when Cassini later determined the plumes contained water ice and organics. Since life as we know it relies on water and a source of energy, this small but energetic moon has been added to the short list of possible places for life in our Solar System.

During three of Cassini’s passes of Enceladus in 2008 and 2009, the spacecraft’s Cosmic Dust Analyser measured the composition of freshly ejected plume grains. The icy particles hit the detector target at speeds of 6. 5–17.

5 km/s, and vaporized instantly. While electrical fields inside the instrument were able to separate the various constituents of the resulting impact cloud for analysis, for a future mission, scientists would like to measure the particles in the plumes without completely vaporizing them. Back in 2012, researchers from the University of California San Diego started working on a custom-built unique aerosol impact spectrometer, designed to study collision dynamics of single aerosols and particles at high velocities.

Although it wasn’t built specifically to study ice grain impacts, it turns out this instrument might be exactly what planetary scientists are looking for to use at Enceladus, or even at Jupiter’s moon Europa, where there is growing evidence of active plumes of water vapor erupting from its surface. Continetti and several colleague have now tested the device in a laboratory, showing that amino acids transported in ice plumes — like at Enceladus — can survive impact speeds of up to 4. 2 km/s.

Their research is published in The Proceedings of the National Academy of Sciences (PNAS). “This apparatus is the only one of its kind in the world that can select single particles and accelerate or decelerate them to chosen final velocities,” said Robert Continetti, a professor from UC San Diego, in a press release. “From several micron diameters down to hundreds of nanometers, in a variety of materials, we’re able to examine particle behavior, such as how they scatter or how their structures change upon impact.

” From Cassini’s measurements, scientists estimate the ice plumes at Enceladus blast out at approximately . 4 km/s (800 miles per hour). A spacecraft would have to fly at the right speeds to make sure the particles could be captured intact.

Currently slated for launch in October of 2024, the Europa Clipper will travel to Jupiter (it will orbit Jupiter instead of Europa directly). It has a spectrometer on board to determine the composition of the surface and scan any plumes spouting water into space. Continetti and colleagues hope that their research will help determine what impact speeds would be optimal.

But they also hope any future probes to Saturn might be able to identify a specific series of molecules in the ice grains that could point to whether life exists in the subsurface oceans of these moons. The challenge is having the molecules survive their speedy ejection from the moon and collection by the probe. They are confident their detector can do it.

“The implications this has for detecting life elsewhere in the Solar System without missions to the surface of these ocean-world moons is very exciting, but our work goes beyond biosignatures in ice grains,” said Continetti. “It has implications for fundamental chemistry as well. We are excited by the prospect of … looking at the formation of the building blocks of life from chemical reactions activated by ice grain impact.

”.


From: universetoday
URL: https://www.universetoday.com/164681/fly-slowly-through-enceladus-plumes-to-detect-life/

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