(CNN) — Astronomers have for the first time spotted two galaxies in the throes of a deep-space “duel.” Using combined observations from ground-based telescopes over nearly four years, the researchers saw the distant galactic neighbors charging toward each other at more than 1.1 million miles per hour (1.8 million kilometers per hour). One repeatedly wielded its intense beams of radiation at the other, dispersing gas clouds and weakening its opponent’s ability to form new stars. “That’s why we call it a ‘cosmic joust,’” said Pasquier Noterdaeme, a researcher for the Paris Institute of Astrophysics and the French-Chilean Laboratory for Astronomy in Chile who was part of the team that made the discovery. What Noterdaeme and his colleagues spied was a distant snapshot of the two galaxies in the process of merging into one large galaxy 11 billion light-years away. The findings, described in a study published Wednesday in the journal Nature, provide a rare look into earlier times in the universe, when star formation and galaxy mergers were more common. Zooming in Working with the European Southern Observatory’s Very Large Telescope (VLT) and the Atacama Large Millimeter/submillimeter Array (ALMA) in Chile, the researchers found that the “attacking” galaxy’s piercing radiation comes from within its bright core, a quasar, powered by a supermassive black hole. The intense gravitational influence of a black hole draws matter toward it in such an energetic way that dust and gas heat up to millions of degrees and become luminous, according to NASA. These luminous materials spiral around the black hole before entering, forming what’s called an “accretion disk,” and jets of energetic matter beam out away from the center. Each blast of the quasar’s ultraviolet waves are about a thousand times stronger than the radiation of our Milky Way, causing hydrogen molecules from some of the “victim” galaxy’s star-forming nurseries to split and disperse, according to the study. Stars form when large clumps of gas and dust reach a critical mass and collapse under their own gravity. However, researchers observed that after being dispersed by the radiation, the clouds were not dense or large enough to create new stars. As additional material from the victim galaxy is drawn within reach of the supermassive black hole, it fuels the quasar with more energy. Quasars have been known to essentially “switch off” from time to time, said study coauthor Sergei Balashev, a researcher at the Ioffe Institute in St. Petersburg, Russia, which could give molecular clouds the opportunity to reform. “It’s really the first time that we can see the radiative effect of a quasar on the molecular gas of a nearby galaxy,” Balashev said. Until now, this effect had only been theorized but not confirmed through direct observation. Scientists initially wanted to observe this particular quasar more closely because of its unique features among thousands of low-resolution spectra, which are like fingerprints for distant celestial objects, offering clues about composition, temperature and activity within them. “It’s really (like) finding a needle in a haystack,” Balashev said. However, the light from quasars is so powerful that it often outshines their own host galaxies, making it difficult to observe other galaxies close by, according to Noterdaeme, the study’s co-lead author. Highly dynamic, luminous quasars are rare, according to NASA. Only about 1,000 of these objects are known to exist in the early days of the universe, Anniek Gloudemans, a postdoctoral research fellow at the National Science Foundation’s NOIRLab, previously told CNN via email. “At first, we just knew there was some molecular gas between the (attacking galaxy’s) quasar and us. It’s only after, when we started to look with bigger telescopes, that we detected there were actually two galaxies,” Noterdaeme said. While the dueling pair appears to be overlapping in the low-resolution spectra, the high-resolution imaging capabilities of ALMA revealed the galaxies are actually separated by thousands of light-years. Using the Very Large Telescope, the researchers were able to study the density and distance of the gas affected by the quasar’s radiation. Since the light from these objects came from billions of light-years away in the early universe, it’s possible the two galaxies have already merged by now, but there is no way to be sure, Balashev said. A blast from the past Scientists believe quasars and galaxy mergers used to be far more common earlier in the universe’s lifetime, said Dong-Woo Kim, an astrophysicist with the Harvard and Smithsonian Center for Astrophysics who was not involved in the research. Galaxies merge when they are pulled toward each other by gravity, and the universe used to be more densely packed together. Over time, the universe has expanded, and more galaxies have combined into larger ones, Kim said. Noterdaeme said that 10 billion years ago was an interesting time in the universe, adding that astronomers call this period when stars formed at a rapid rate the “noon of the universe.” Though less frequent, galaxy mergers are still happening all the time, Kim said. Even our own Milky Way is expected to merge with the Andromeda galaxy in a few billion years, but the study team isn’t certain yet whether the “cosmic joust” phenomenon is a common feature when two galaxies collide and form a larger one. “It’s an exciting field to study,” Kim said. “Research like this can teach us more about the birth of new galaxies and observe how they evolve over time.”
‘Cosmic joust’: Astronomers catch first sight of two dueling galaxies
TruthLens AI Suggested Headline:
"Astronomers Observe First Direct Evidence of Two Galaxies Colliding"
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TruthLens AI Summary
Astronomers have made a groundbreaking discovery by observing two galaxies engaged in a high-speed cosmic 'duel' for the first time. This observation, made with the assistance of ground-based telescopes over nearly four years, reveals the galaxies racing towards each other at speeds exceeding 1.1 million miles per hour (1.8 million kilometers per hour). The research team, led by Pasquier Noterdaeme from the Paris Institute of Astrophysics, described the phenomenon as a 'cosmic joust.' The galaxies are situated 11 billion light-years away and are in the process of merging into a single large galaxy. This study, published in the journal Nature, offers a rare glimpse into the early universe, a time when galaxy mergers and star formation were more prevalent. The intense interaction between the galaxies is characterized by one galaxy emitting powerful beams of radiation that disrupt the gas clouds of its counterpart, diminishing its ability to generate new stars.
Utilizing the European Southern Observatory’s Very Large Telescope (VLT) and the Atacama Large Millimeter/submillimeter Array (ALMA) in Chile, scientists identified that the radiation emanates from a quasar at the core of the attacking galaxy, which is powered by a supermassive black hole. The gravitational pull of the black hole causes surrounding matter to heat up and emit light in the form of jets, significantly impacting the star-forming regions of the victim galaxy. The findings confirm theoretical predictions regarding the radiative effects of quasars on nearby galaxies by directly observing the molecular gas affected by such powerful radiation. Although galaxy mergers are less frequent in the current universe, they were once more common, and the study highlights the dynamic processes involved in galaxy evolution. Researchers emphasize that understanding these interactions can provide valuable insights into the formation and evolution of galaxies over cosmic time, enhancing our knowledge of the universe's history.
TruthLens AI Analysis
The discovery of dueling galaxies presents an exciting glimpse into cosmic phenomena and serves to engage public interest in astronomy. The article highlights the groundbreaking observations made by astronomers and the implications these findings may have for our understanding of the universe.
Purpose of the Article
The main intention behind this news release seems to be to inform the public about significant progress in astronomical research. By describing the collision of galaxies in a dramatic way, such as “cosmic joust,” the article aims to capture the imagination of readers and spark interest in space exploration. This could ultimately inspire support for scientific research and funding in the field of astronomy.
Public Perception
The language used in the article paints an awe-inspiring picture of the universe. By focusing on the dynamic interactions between galaxies, it fosters a sense of wonder and curiosity among readers. The detailed explanation of phenomena like quasars and accretion disks also serves to educate the audience, potentially nurturing a deeper appreciation for astrophysics.
Information Concealment
While this article primarily focuses on a scientific discovery, there may be an underlying aim to downplay other pressing issues. By diverting attention to the grandeur of cosmic events, it could indirectly overshadow ongoing debates in science funding, climate change, or political conflicts that require urgent attention.
Relevance and Reliability
The findings discussed appear to be grounded in reliable scientific research, as they are published in a reputable journal, Nature. However, headlines like "cosmic joust" could be seen as sensationalist, which may affect the perception of reliability among some critical readers.
Connections to Other News
In the broader context of recent astronomical discoveries, this report aligns with a trend of increasing public engagement in space-related news. It fits within a narrative that emphasizes humanity's ongoing quest for knowledge about the universe and our place within it.
Impact on Society and Economy
The implications of such findings could extend into educational and scientific sectors, promoting astronomy as a field of interest for students and researchers alike. This might encourage investment in space exploration and technology, leading to advancements that can benefit various industries.
Target Audience
This article is likely to resonate with enthusiasts of science, particularly those with an interest in astronomy and astrophysics. It aims to engage both the general public and professionals in the field by presenting complex ideas in an accessible manner.
Market Influence
While this specific discovery may not have a direct influence on stock markets, companies involved in space technology or research might experience an uptick in interest or investment. Organizations like NASA and private space exploration companies could benefit from increased public support.
Geopolitical Context
The article does not directly address geopolitical issues, but it contributes to the ongoing narrative of international scientific collaboration. As nations increasingly cooperate in space exploration, findings like these can influence global partnerships and scientific diplomacy.
Artificial Intelligence Involvement
It is unlikely that AI played a significant role in the writing of this article. However, AI models could have been used in data analysis or in interpreting the cosmic phenomena discussed. The clarity of the descriptions may reflect data processed through sophisticated algorithms in astrophysical research.
Manipulative Elements
Overall, the article does not exhibit overt manipulation but utilizes engaging language and imagery to captivate its audience. This approach can be seen as a tactic to elevate public interest in scientific discourse.
In conclusion, the reliability of the article is bolstered by its foundation in scientific research, although the sensationalist aspects may raise questions among skeptics. The focus on the grandeur of the universe serves both to inform and to inspire, potentially nurturing a more scientifically literate society.