Tag Archives: telescopes

Unprecedented Detail of Saturn Captured by Webb and Hubble Telescopes

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By integrating infrared observations from the NASA/ESA/CSA James Webb Space Telescope with visible-light images from the NASA/ESA Hubble Space Telescope, astronomers have unveiled a stunning new perspective of Saturn, showcasing its atmospheric bands, storms, and brilliantly reflective rings.

Comparative images of Saturn in infrared (Webb, left) and visible light (Hubble, right). Image credits: NASA/ESA/CSA/STScI/A. Simon, NASA-GSFC/M. Wong, University of California/J. DePasquale, STScI.

A newly released image of Saturn emphasizes the dynamic features of the gas giant’s vibrant atmosphere.

Webb’s observations reveal a long-lived jet stream, referred to as a “ribbon wave,” traversing the northern mid-latitudes, influenced by atmospheric waves that are difficult to detect otherwise.

A small dot just below the jet stream indicates the remnants of the 2011-2012 “Spring Storm.”

Additionally, several storms scattered across Saturn’s southern hemisphere are evident in the Webb image.

The astronomers noted, “All these atmospheric formations are shaped by powerful winds and waves beneath the visible cloud layer, making Saturn an ideal natural laboratory for studying fluid dynamics under extreme conditions.”

“The iconic hexagonal jet stream at Saturn’s north pole, discovered by NASA’s Voyager spacecraft in 1981, displays some sharp edges that are also faintly visible in both images.”

“It continues to be one of the solar system’s most intriguing weather phenomena.”

“Its persistence over decades underscores the stability of particular atmospheric processes on giant planets.”

“These famous hexagons are likely to be observed in high resolution for the last time until the 2040s, when Arctic winters shift into 15 years of darkness.”

Recent Webb observations indicate that Saturn’s poles appear a distinct gray-green, emitting light at approximately 4.3 microns.

The researchers suggest, “This unique coloration might arise from a layer of high-altitude aerosol in Saturn’s atmosphere, scattering light differently in those latitudes.”

“Another possibility includes auroral activity, wherein charged particles interacting with the planet’s magnetic field produce a glowing luminescence near the poles.”

In Webb’s images, Saturn’s rings are notably bright due to their composition of highly reflective water ice.

The scientists explained, “Both images depict the ring’s surface illuminated by the sun; however, the Hubble image shows less illumination, creating a shadow beneath the planet.”

“Subtle features of the ring, like spokes and patterns in the B ring (the thick central region), exhibit differences between the two observatories.”

“The outermost ring, known as the F ring, appears thin and sharply defined in the Webb image, but glows only faintly in the Hubble image.”

“Saturn’s orbit around the sun, combined with Earth’s position in its annual path, dictates the varied angles from which we observe Saturn’s face and rings.”

“These observations from 2024, captured 14 weeks apart, indicate that Earth is moving away from northern summer and approaching the 2025 equinox.”

“As Saturn transitions into the southern spring and late southern summer of the 2030s, both Hubble and Webb will increasingly enhance their views of its hemisphere.”

Source: www.sci.news

Unveiling Hidden Complexities of the Cat’s Eye Nebula: Insights from Hubble and Euclidean Telescopes

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Recent images from the NASA/ESA Hubble Space Telescope and the ESA’s Euclid mission showcase the intricate multi-shell structure of the fascinating planetary nebula NGC 6543, famously known as the Cat’s Eye Nebula.

This mesmerizing image from Euclid encapsulates the panoramic view of the Cat’s Eye Nebula. Image credits: NASA / ESA / Hubble / Euclid Consortium / J.-C. Cuillandre & E. Bertin, CEA Paris-Saclay / Z. Tsvetanov.

The Cat’s Eye Nebula, located roughly 4,300 light-years away in the constellation Draco, has intrigued astronomers for decades due to its complex, multi-layered architecture.

“Planetary nebulae,” as they are called, derive their name from their round appearance in early telescopic observations; they are actually colossal gas clouds expelled from stars nearing the end of their life cycle,” the Hubble and ESA astronomers explained.

This insight was initially uncovered in 1864 using the Cat’s Eye Nebula itself. Studying its light spectrum allows scientists to identify individual molecules, a characteristic that differentiates planetary nebulae from stars and galaxies.

Near-infrared and visible-light imagery from the Euclid mission illustrates the arcs and filaments of the nebula’s luminous core, enveloped in a mist of vibrant gas debris that is retreating from the star.

“This ring was expelled from the star prior to the formation of the central nebula,” the astronomers noted.

“The entire nebula is prominently set against a backdrop brimming with distant galaxies, exemplifying how local astrophysical wonders and the farthest reaches of the universe coexist in today’s astronomical surveys.”

In this remarkable image, Hubble captures the swirling gas core of the Cat’s Eye Nebula. Image credits: NASA / ESA / Hubble / Z. Tsvetanov.

Through a wide-field lens, Hubble has captured stunning high-resolution visible-light images of the nebula’s swirling gas core.

The data reveals an intricate tapestry of features that appear almost surreal, including concentric shells, high-velocity gas jets, and dense knots shaped by impact interactions,” the researchers stated.

“These structures are believed to document the transient mass loss from the dying star at the nebula’s center, creating a cosmic ‘fossil record’ of its final evolution.”

“The combination of Hubble’s focused observations and Euclid’s deep-field data not only emphasizes the nebula’s delicate structure but also situates it in the broader cosmic landscape explored by both telescopes.”

“Together, these missions offer a rich, complementary view of NGC 6543, illuminating the subtle interplay between a star’s end-of-life processes and the vast universe that surrounds it.”

Source: www.sci.news

Hubble and Webb telescopes examine the planetary debris disk surrounding Vega

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There is no clear evidence that one or more large exoplanets are punching through the frontal debris disk surrounding Vega, one of the brightest stars in the night sky.

Webb used the Mid-Infrared Instrument (MIRI) to obtain images of the circumstellar disk around Vega. Image credits: NASA / ESA / CSA / STScI / S. Wolff, University of Arizona / K. Su, University of Arizona / A. Gáspár, University of Arizona.

Vega is a young, massive star located about 25 light-years away in the constellation Lyra.

This star is classified as type A. This is the name of stars that tend to be larger, younger, and rotate much faster than the Sun.

Vega, also known as Alpharilla, Gliese 721, and HD 172167, is 455 million years old and has a mass equal to two solar masses.

It rotates around its axis every 16 hours. This is much faster than the Sun, which has a rotation period measured in 27 Earth days.

Vega is legendary because it provided the first evidence of matter orbiting a star.

this was the first made a hypothesis However, it took more than 200 years before the first observational evidence was collected in 1984.

A mysterious excess of infrared radiation from warm dust has been detected by NASA's Infrared Astronomy Satellite (IRAS). It was interpreted to be a shell or disk of dust extending from the star to twice Pluto's orbital radius.

In the new study, astronomers analyzed images of Vega's debris disk taken by the NASA/ESA Hubble Space Telescope and the NASA/ESA/CSA James Webb Space Telescope.

“Vega was one of the first typical planetary debris disks to be discovered,” Dr. Kate Hsu of the University of Arizona and colleagues said in their paper. paper Introducing the results of a web survey.

“This opens up a wide field of research, which is now being used to identify relatively low-mass exoplanets that are unreachable with other discovery techniques, as well as to reveal detailed properties of small bodies in other planetary systems. It is used in

“Vega continues to be an anomaly,” added Dr. Schuyler Wolf, an astronomer at the University of Arizona and lead author of the paper. paper Introducing Hubble's discoveries.

“The structure of the Vega system is markedly different from our solar system, where giant planets like Jupiter and Saturn prevent dust from dispersing like Vega.”

“For comparison, there is a nearby star called Fomalhaut, which is about the same distance, age, and temperature as Vega.”

“However, Fomalhaut's circumstellar structure is very different from Vega's. Fomalhaut has three nested debris belts.”

“Exoplanets have been suggested to be bodies that guide the dust around Fomalhaut, which gravitationally compresses it into a ring, but no planets have yet been positively identified.”

“Given the physical similarities between Vega and Fomalhaut's stars, why does Fomalhat appear to be able to form planets, but Vega not?” George Rieke, also of the University of Arizona The doctor said:

“What's the difference? Did the circumstellar environment, or the star itself, make the difference? What's puzzling is that the same physics is at work in both,” Wolff added.

Hubble used the Space Telescope Imaging Spectrograph (STIS) to obtain this image of the circumstellar disk around Vega. Image credits: NASA / ESA / CSA / STScI / S. Wolff, University of Arizona / K. Su, University of Arizona / A. Gáspár, University of Arizona.

Webb observed the infrared glow from a disk of sand-sized particles swirling around a scorching blue-white star that is 40 times brighter than the Sun.

Hubble captures the disk's outer halo, which contains smoke-sized particles that reflect starlight.

The distribution of dust within Vega's debris disk is layered. This is because the pressure of the star's light pushes smaller particles out faster than larger ones.

“Between the Hubble and Webb telescopes, we get a very clear view of Vega,” said Dr. András Gaspard, an astronomer at the University of Arizona and co-author of both papers.

“This is a mysterious system because it is unlike any other circumstellar disk we have observed.”

“Vega discs are smooth. Incredibly smooth.”

The Vega disk has a subtle gap about 60 AU (astronomical units) from the star (twice the distance of Neptune from the Sun), but otherwise it is very smooth the entire time until it disappears into the star's glare. is.

This indicates that there are no planets, at least up to the mass of Neptune, orbiting large orbits like our solar system.

“We are looking in detail at how much diversity there is in the circumstellar disk and how that diversity is tied to the underlying planetary system,” Dr. Hsu said.

“Even if we can't see what the hidden planets are, we’re still discovering a lot about planetary systems.”

“There are still many unknowns about the process of planet formation, but we think these new observations from Vega will help constrain models of planet formation.”

The two papers are astrophysical journal.

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Kate Y.L. Sue others. 2024. Imaging the Vega debris system using JWST/MIRI. APJin press. arXiv: 2410.23636

Skylar G. Wolf others. 2024. Hubble Space Telescope probes deep into the scattered light dust ring around Vega. APJin press. arXiv: 2410.24042

Source: www.sci.news

The Hubble Space Telescope’s Focus on Galaxies with Supernovae

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The NASA/ESA Hubble Space Telescope has taken new photos of the relatively small galaxy UGC 5189A in the constellation Leo.

This Hubble image shows UGC 5189A, an irregular galaxy about 150 million light-years away in the constellation Leo. Image credit: NASA / ESA / Hubble / A. Filippenko.

UGC 5189A It is located approximately 150 million light years away in the constellation Leo.

This galaxy, also known as ECO 5363 or LEDA 27776, was observed by Hubble in 2010 to study supernova explosions.

This special supernova SN2010jlwas notable for its enormous brightness.

“In fact, over a three-year period, SN 2010jl alone emitted at least 2.5 billion times more visible energy than the Sun emitted in the same time frame across all wavelengths,” Hubble astronomers said.

“Even after a supernova has dimmed to an unobservable level, it can still be interesting to study the environment in which it occurred.”

“This could provide us with valuable information. Supernovae can occur for a variety of reasons, and understanding the environment in which they occur can help us understand why supernovae are triggered. It will help you better understand the necessary conditions.”

“Furthermore, follow-up studies after a supernova explosion could improve our understanding of the immediate aftermath of a supernova explosion, from the powerful effects on the surrounding gas and dust to the stellar debris left behind by the supernova.”

“To this end, UGC 5189A has been observed by Hubble many times since 2010.”

This new image of UGC 5189A consists of observations from. Hubble's Wide Field Camera 3 (WFC3) Found in the ultraviolet and optical parts of the spectrum.

Two filters were used to sample different wavelengths. Color is obtained by assigning different hues to each monochromatic image associated with an individual filter.

“This image is from data collected in three recent Hubble studies of UGC 5189A, which also examined several other relatively nearby galaxies that have recently gone supernova. “Relatively nearby” in this context means approximately 100 million light years away. ” said the astronomers.

Source: www.sci.news