Scientists Detect "Strange Filaments" at the Heart of Our Galaxy
Researchers have zoomed in on the area surrounding the supermassive black hole lurking at the center of our galaxy, and made a fascinating discovery: a structure of "strange filaments" driving a cycle of gas emissions and replenishment.
As detailed in a new paper published in the journal Astronomy & Astrophysics, the international team of astronomers used the Atacama Large Millimeter/submillimeter Array (ALMA) in the Chilean desert to produce high-resolution observations of the Central Molecular Zone (CMZ), a region known for continuously cycling through copious amounts of dust and gas molecules.
However, how these cycles of formation and destruction actually function has largely remained a mystery. But thanks to ALMA's highly detailed map of the region, astronomers discovered a new type of filamentary structure, which reacts to shock waves rippling through the region.
"When we checked the ALMA images showing the outflows, we noticed these long and narrow filaments spatially offset from any star-forming regions," said Shanghai Jiao Tong University researcher and team lead Kai Yang in a statement that described the findings as vast "alien structures."
"Unlike any objects we know, these filaments really surprised us," he added. "Since then, we have been pondering what they are."
The team made the discovery by tracing silicon monoxide (SiO) and eight other molecules in the region, using ALMA. Interestingly, their velocities suggest they're not associated with dust emissions.
"Our research contributes to the fascinating Galactic Center landscape by uncovering these slim filaments as an important part of material circulation," said Shanghai Astronomical Observatory research professor and corresponding author Xing Lu. "We can envision these as space tornados: they are violent streams of gas, they dissipate shortly, and they distribute materials into the environment efficiently."
In their paper, the researchers suggest the filaments are "associated with parsec-scale shocks, likely arising from dynamic interactions between shock waves and molecular clouds."
According to their findings, these shocks bring these slim filaments to life, releasing SiO and several other complex organic molecules, including methanol, into the CMZ.
They then dissipate, allowing molecules to freeze back into dust grains, restarting the cycle.
The researchers are hoping that future ALMA observations could shed more light on the process to hone in on these filaments' origins.
"We speculate that these slim filaments represent a distinct class from the dense gas filaments typically observed in nearby molecular clouds, and they may result from interactions between shocks and molecular clouds," the paper reads.
More on the supermassive black hole: Scientists Intrigued by "Star Grinder" Pulverizing Entire Star Systems in Our Galaxy
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Fox News
9 hours ago
- Fox News
Rare Jupiter-sized planet discovered 3,200 light-years away using Einstein's space-time warping method
Astronomers used a method once theorized by Albert Einstein to find a mysterious and rare planet on the edge of our galaxy. The planet, AT2021uey b, is a Jupiter-sized gas giant located about 3,200 light-years from Earth in the galactic bulge. It takes AT2021uey b 4,170 days to orbit its dwarf star, according to a study published in the journal Astronomy & Astrophysics. According to Live Scence, AT2021uey b's shadow was first spotted in 2021 in data taken by the European Space Agency's Gaia telescope. It took the astronomers multiple check-ins to confirm the details of the planet. The astronomers discovered the planet using microlensing, a method used only three times previously, according to the study. Microlensing, which is based on Einstein's theory of relativity, relies on massive objects moving through the galaxy to warp the fabric of the universe, called space-time. Dr. Marius Maskoliunas, astronomer at Vilnius University and co-author of the study, discussed in a statement posted in just how much work goes into using this method. "This kind of work requires a lot of expertise, patience and, frankly, a bit of luck. You have to wait for a long time for the source star and the lensing object to align and then check an enormous amount of data," Maskoliunas said in the statement. "Ninety percent of observed stars pulsate for various other reasons, and only a minority of cases show the microlensing effect." According to the study, microlensing occurs when a massive celestial body briefly positions itself directly in front of an even more distant star. As the planet settles in front of the star during its journey, the light begins to curve around the planet, magnifying the light of the star. According to the study, this temporary magnified light is what astronomers are searching for. Maskoliunas gave an example of how to imagine how microlensing works. "What fascinates me about this method is that it can detect those invisible bodies. Imagine a bird flying past you. You don't see the bird itself and don't know what color it is — only its shadow," Maskoliunas said in the statement. "But from it, you can, with some level of probability, determine whether it was a sparrow or a swan and at what distance from us. It's an incredibly intriguing process." According to Live Science, there have been nearly 6,000 planets discovered since 1992 using two other more common practices known as transmit photometry and radial velocity. These more common practices will detect planets through host stars becoming dimmer due to said planets. They will also detect the wobble of the planets' gravitational pulls that occur.
Yahoo
11 hours ago
- Yahoo
See our neighboring Andromeda Galaxy in a whole new light
A new composite image of the Andromeda Galaxy is offering an unprecedented view of our closest spiral galactic neighbor. Composed by NASA and international space partners, the image combines data from more than a dozen telescopes and ground-based observatories. Located about 2.5 million light-years from Earth, Andromeda, which is also known as Messier 31m has been a focus of the space community for more than a century, with early observations dating back to at least 1923 by astronomer Edwin Hubble. A key focus of ongoing studies has been the galaxy's evolution and structure, which shares many similar features with our own Milky Way. The new imagery weaves together data from X-rays captured by Nasa's Chandra telescope, the European Space Agency's XMM-Newton spacecraft and several other missions to create a unique view of the galaxy's features. See The Objects Humans Left Behind On The Moon "Each type of light reveals new information about this close galactic relative to the Milky Way. For example, Chandra's X-rays reveal the high-energy radiation around the supermassive black hole at the center of M31 as well as many other smaller compact and dense objects strewn across the galaxy," NASA stated. Unlike the Milky Way, which is difficult to observe from within due to dust, gas and Earth's position inside it, Andromeda can be studied from a great distance, offering astronomers a more complete and unobstructed view. Despite the insights revealed by this image, many mysteries remain about the spiral galaxy, including the composition of invisible dark matter, how it interacts with other cosmic structures and how many stars and planets it truly contains. Andromeda is believed to contain hundreds of billions of stars, leading scientists to theorize that it could also host trillions of planets. Even with an army of advanced space technology available today, no telescope is powerful enough to overcome the vast distance and identify a single planet, or, for that matter, even a star, in detail within Andromeda. Astronomers Discover Largest Superstructure In Cosmos NASA says its upcoming Nancy Grace Roman Space Telescope is among several missions that will help continue to shed light on galaxies like M31. Named after the agency's first chief astronomer, the high-tech observatory is expected to launch in 2027 and will feature a field of view 100 times larger than that of the Hubble Space article source: See our neighboring Andromeda Galaxy in a whole new light
Yahoo
11 hours ago
- Yahoo
Scientists Intrigued by Comet With Jets Blasting From Its Interior
Astronomers have detected a gigantic comet — possibly the largest ever discovered — and it's spewing gases from its nucleus as it shoots through our cosmic neighborhood. Comet C/2014 UN271 (Bernardinelli-Bernstein) is 85 miles in diameter, far bigger than the six-mile asteroid that ended the age of the dinosaurs, according to a new study in The Astrophysical Journal Letters. But thankfully, it's pretty far away — in the vicinity of Neptune, specifically — so astronomers can admire the spectacle from a safe distance. "These measurements give us a look at how this enormous, icy world works," said Nathan Roth, lead author and NASA research associate, said in a statement. "We're seeing explosive outgassing patterns that raise new questions about how this comet will evolve as it continues its journey toward the inner solar system." In addition to the comet's extraordinary size, its jets of carbon monoxide are the first ever observed on a comet. The comet came from the mysterious Oort Cloud, which surrounds our entire Solar System and harbors more icy denizens. To astronomers, comets are particularly intriguing because they carry tantalizing clues about the past of the universe and our solar system. Comets are dirty snowballs made up of ice, dust, debris, and often come from the Kuiper Belt, an area beyond Neptune that contains Pluto and other icy space objects, as well as the Oort Cloud. A special feature of comets is that they hold organic matter and likely bombarded our planet during its early years with essential molecules that eventually gave rise to life on Earth. That's another reason this finding is huge: the fact that scientists were able to detect matter spewing out of the comet is notable, and as it gets closer to the Sun, parts of the comet may melt away, revealing more of its tantalizing internal makeup. More on comets: Earth Surrounded by Dark Comets, Astronomers Claim
