Tag Archives: Astounding

Astounding Discovery: Astronomers Find Iron ‘Rod’ at the Center of a Mysterious Ring Nebula

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Astronomers utilizing the WHT Extended Area Velocity Explorer (WEAVE), a cutting-edge instrument aboard the William Herschel Telescope on La Palma Island, have uncovered an intriguing elongated structure of ionized iron within the renowned Ring Nebula.

A composite image of the Ring Nebula featuring four WEAVE/LIFU emission line images. Image credit: Wesson et al., doi: 10.1093/mnras/staf2139.

The Ring Nebula, also known as Messier 57, M57, or NGC 6720, is a classic planetary nebula located approximately 2,000 light-years away in the constellation Lyra.

This nebula was first discovered by the French astronomer Charles Messier in January 1779 while he was on a mission to find comets.

Messier’s report about the discovery of Comet Bode reached fellow astronomer Antoine d’Alquier de Perpois shortly afterward, who subsequently rediscovered the Ring Nebula during his comet observations.

The newly identified rod-shaped cloud of iron atoms resides within the inner layer of this elliptical nebula.

Measuring about 500 times the length of Pluto’s orbit around the sun, this cloud’s atomic mass of iron is comparable to that of Mars.

This iron cloud was detected using the Large Integral Field Unit (LIFU) mode of the innovative WEAVE instrument on the 4.2-meter William Herschel Telescope, part of the Isaac Newton Group.

According to Dr. Roger Wesson, an astronomer from University College London and Cardiff University: “While the Ring Nebula has been extensively studied with various telescopes, WEAVE enables us to observe it in unprecedented detail, providing much richer information than previously available.”

“By continuously collecting spectra across the nebula, we can image it at any wavelength and analyze its chemical composition at any given location.”

“As we process the data and examine the images, we discover a never-before-seen ‘rod’ of ionized iron atoms at the heart of this iconic ring.”

The exact nature of the iron “rods” within the Ring Nebula remains uncertain.

Two potential scenarios emerge: the bar may offer new insights into the nebula’s formation and ejection by its parent star, or (more intriguingly) it could represent an arc of plasma from a rocky planet evaporating during the star’s initial expansion.

Professor Janet Drew, also from University College London, noted: “We need to investigate further, particularly to determine if the newly detected iron coexists with other elements. This could guide us toward the appropriate models to explore.”

“Currently, this crucial information is lacking.”

For more in-depth details, check out the findings published today in the Royal Astronomical Society Monthly Notices.

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R. Wesson et al. 2026. WEAVE Imaging Spectroscopy of NGC 6720: Iron Rods in the Ring. MNRAS 546 (1): staf2139; doi: 10.1093/mnras/staf2139

Source: www.sci.news

Astounding Discovery: Curiosity Detects Long-Chain Carbon Molecules in Martian Mudstones

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Sample analysis of Mars Instrument on NASA’s Curiosity Rover detected decane, anteca and dodecane molecules in Gale Crater samples.

This graphic shows the long chain organic molecules, decane, undercane, dodecane, and rover of curiosity from NASA. Image credit: NASA/Dan Gallagher.

“The main scientific goal of Curiosity is to quantitatively assess the possibility of Mars’ habitability in the past or present,” says Dr. Caroline Freissinet, researcher at Atmosphères ET Observation Spatiales at CNRS and Laboratoire.

“Sample analysis in the MARS (SAM) instrument suite on a rover is dedicated to this task by employing inventory of organic and inorganic compounds present on the surface of Mars as potential chemical biosignatures and investigating the nature of the conservation.”

Using SAM instruments, researchers analyzed molecules released from excavated mudstone samples called Cumberlands, collected in Yellowknife Bay, the geological layer of Gale Crater.

They were able to detect three long chain alkanes: decane (c)10htwenty two), unedecane (c11htwenty four), and dodecan (c12h26).

“These long carbon chains, which contain up to 12 consecutive carbon atoms, can exhibit similar characteristics to the fatty acids produced on Earth through biological activity,” the researchers said.

Dodecane represents the highest molecular mass organic molecule ever identified on the surface of Mars.

“Detection of long-chain alkanes shows various causes of organic matter and storage mechanisms in Cumberland samples,” the scientists said.

“Clays and sulfate minerals are expected to play an important role in this long-term storage.”

According to the author, the source of Mars’ long-chain alkanes remains uncertain.

“Laboratory experiments support sources from the saturated forms of linear chains, primary carboxylic acids, i.e. decano acids, dodecano acids, and tridecano acids, for decane, undecano and dodecano acids, respectively,” they said.

“Abiotic processes can form these acids, but are considered to be a universal product of biochemistry, on the ground and perhaps Mars.”

“The origin and distribution of these molecules therefore has great interest in searching for potential biosignatures on Mars.”

Survey results It will be displayed in Proceedings of the National Academy of Sciences.

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Caroline Freecinet et al. 2025. Long chain alkanes are preserved in the mudstones of Mars. pnas 122 (13): e2420580122; doi: 10.1073/pnas.2420580122

Source: www.sci.news