Episode Highlights
- End of NASA's NEOWISE Mission: After a remarkable 14-year run, the NEOWISE mission concludes, leaving behind a legacy of significant advancements in our understanding of near-Earth objects.
- - Artemis IV Engine Upgrades: The Artemis IV mission will feature modernized RS-25 engines, marking a significant milestone before transitioning to newly manufactured engines for future missions.
- - James Webb Space Telescope's New Discovery: The JWST has identified a potentially habitable exoplanet, LHS 1140 b, which may harbor a temperate water ocean, sparking excitement in the scientific community.
- - Europe's Ariane 6 Launch: The imminent launch of Ariane 6 represents a significant step forward for Europe's space aspirations, aiming to address the continent's launcher crisis and serve both government and commercial clients.
- - Subaru Telescope's Kuiper Belt Discoveries: The Subaru telescope has identified new objects beyond the previously known boundaries of the Kuiper belt, offering fresh insights into the formation and evolution of our solar system.
- Don't forget to visit our website at astronomydaily.io to listen to all our podcast episodes and check out the latest space news from our continually updating newsfeed. You can also find more space news and stay connected with us by following Astronomy Daily on Facebook, X, and TikTok. Stay curious, keep exploring, and always remember to keep looking up.
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Welcome to Astronomy Daily, the podcast that brings you the latest and most exciting
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updates from the world of space exploration and astronomy. I'm your host, Anna.
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Today we'll be covering several intriguing headlines, including the end of a NASA
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mission, upgrades to the Artemis four engines, new discoveries by the James Webb
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Space Telescope, Europe's Ariani six launch, and new objects beyond the Kuiper Belt
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discovered by the Subaru telescope. So sit tight as we dive into these fascinating
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developments that are pushing the boundaries of our understanding of the Cosmos. NASA's NEOWISE
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mission is coming to an end after an impressive fourteen year run that has significantly
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advanced our understanding of near Earth objects. Launched initially as the WISE or Wide
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Field Infrared Survey Explorer in two thousand and nine, the mission quickly exceeded its
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scientific objectives by scanning the entire infrared sky. This mission took a pivotal turn
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in twenty thirteen, becoming NEOWISE Near Earth Object Wide Field Infrared Survey Explorer and
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shifting its focus to asteroid hunting. After developing new techniques to find and characterize
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near Earth objects or NEOs hidden in vast quantities of its infrared survey data.
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Neowise made one point four to five million infrared measurements of over forty four thousand
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objects in our solar system. In total, it has surveyed more than three
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thousand NEOs, discovering two hundred and fifteen of them itself. The spacecraft has
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provided a huge data reservoir that the scientific community will sift through and learn from
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for decades. What's particularly exciting about NEOWISE's accomplishments is setting the stage for its
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successor, the NEEO Surveyor, the first purpose built infrared space telescope specifically dedicated
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to hunting hazardous near Earth objects, scheduled to launch in late twenty twenty seven.
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A NEEO Surveyor aims to find the most difficult to detect asteroids and comets
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that could pose significant threats to Earth. This makes it a critical component of
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NASA's planetary defense strategy. Interestingly, the approaching Solar maximum, the period of
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highest solar activity during the Sun's eleven year cycle, has hastened the end of
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the Neowise mission. Increased solar activity heats Earth's atmosphere, causing it to expand
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and create more drag on satellites. Since Neowise lacks a propulsion system, it
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can't maintain its orbit under these conditions. Following its last survey on July thirty
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first, the spacecraft will enter hibernation mode on August eighth, before gradually falling
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back to Earth to eventually burn up in the atmosphere. NASA officials have praised
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Neowise for surpassing all expectations. Joseph Hunt, NEOISED project manager at NASA's Jet
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Propulsion Laboratory, lauded the mission for providing vast amounts of data that the science
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community will use for decades to come. Amy Mainzer, the principal investigator of
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Neoy's and neosurvey, emphasize that NEOWYS has been crucial in developing the next generation
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infrared space telescope. It's amazing to think how far we've come since the mission's
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inception, and even more exciting to ponder what lies ahead for planetary defense efforts.
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With Neowys paving the way and the NEO Surveyor gearing up, it's clear
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that NASA is committed to continuously improving our planetary defense capabilities. The Artemis four
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mission will soon launch, and it's bringing some significant upgrades along for the ride.
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One of the standouts the modernized RS twenty five engines. These engines,
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originally from the Space Shuttle era, have seen some impressive updates to prepare them
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for the Artemis missions. This mission, in particular, will be the last
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to use these updated engines before NASA switches to newly manufactured RS twenty five engines
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starting with Artemis five. So what makes these upgraded RS twenty five engines special
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VERER one They now include modern flight computers capable of handling higher temperatures. This
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is crucial because these engines will be in close proximity to the SLS solid rocket
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motors, which generate intense heat. The upgraded engines have undergone comprehensive tests ensuring
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that they can meet the rigorous demands of the Artemis four mission. In addition
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to the high tech upgrades, the mission will also feature the debut of the
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Advanced Block one B configuration of the Space Launch System. This configuration includes an
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exploration upper stage powered by four aerojet rocket dine RL ten engines, a step
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up from the interim cryogenic propulsion stage used in earlier Artemis missions, which was
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powered by a single RL ten engine. The enhancements don't stop there. The
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new universal stage adapter above the exploration upper stage increases the volume for payloads by
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twenty four percent compared to industry standard five meter class payload fairings. What does
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this mean in practical terms? While the upgraded SLS Block one B rocket can
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now deliver thirty eight metric tons of payload to cislunar space in a single mission
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compared to just twenty seven metric tons with the Block one configuration. For cargo
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only missions, the payload capacity increases to a whopping forty two metric tons.
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All of these advancements make the Artemis four mission a significant milestone. It not
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only marks the end of an era with the last use of the updated Space
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Shuttle engines, but also heralds a new age of space exploration capability. With
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more powerful and efficient engines, higher payload capacities, and cutting edge technology,
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the Artemis missions are paving the way for even more ambitious space endeavors. Stay
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tuned because the launch of Artemis four is set to be a game changer in
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NASA's journey to explore the Moon, Mars, and beyond, the James Webb
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Space Telescope has made a groundbreaking discovery that has the scientific community buzzing with excitement.
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The telescope has spotted a put tent henchially habitable exoplanet named LHS eleven forty
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B, located forty eight light years away in the constellation Cetus. What makes
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LHS eleven forty b especially intriguing is the possibility that it harbors a temperate water
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ocean potentially half the size of the Atlantic. Water is a fundamental ingredient for
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life as we know it, making this discovery particularly significant. Until now,
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detecting liquid water on distant worlds has been a key milestone scientists have aimed for
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in the search for extraterrestrial habitability. LHS eleven forty B could soon be the
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first exoplanet where we indirectly confirm the presence of liquid water on its surface,
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according to Charles Cadieux, the lead author of the study that announced the discovery.
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Revolving around a red dwarf star that's about a fifth the size of our
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Sun, LHS eleven forty B sits comfortably in what scientists call the habitable zone,
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where conditions are just right for liquid water to exist. This zone is
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often referred to as the Goldilock zone, neither too hot nor too cold,
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but just right for life as we know it. Adding to the excitement,
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Ryan McDonald, a NASA Sagan fellow, suggests that initial observations with the JWST
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have even hinted at an atmosphere on LHS eleven forty B. This is a
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monumental step forward because it could indicate that the planet has retained a substantial atmosphere
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rich in nitrogen, much like Earth's. If true, it means LHS eleven
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forty B might offer conditions suitable for supporting liquid water and, by extension,
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life. This discovery is not entirely out of the blue. LHS eleven forty
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B has been a subject of interest among planetary scientists for some time. Previous
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telescopes like Hubble and Spitzer have gathered substantial data on this exoplanet, but they
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lacked the advanced capabilities of the JWST. What sets the James webspased telescope apart
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is its power to disentangle complex data, separating planetary signals from those of the
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star at orbits. Thanks to jwas T's keen eye, previous ambiguities about LHS
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eleven forty B being a mini neptune, a type of planet unsuited for liquid
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water, have been laid to rest. The possibility that LHS eleven forty B
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is actually a super Earth with massive water content. Is incredibly exciting. To
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illustrate how unique LHS eleven forty B is, let's consider its rotation. Similar
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to how the same side of the Moon always faces Earth, LHS eleven forty
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B may also have one side perpetually facing its star, creating stable conditions that
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could support a liquid ocean on that side. This bullseye ocean scenario, where
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one hemisphere contains a vast temperate water body, offers a fascinating picture of what
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life could potentially look like on such an exotic world. While there's still much
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to learn about LHS eleven forty B, this early discovery offers a promising lead
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in the quest to find habitable worlds beyond our own. As we continue to
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study this remarkable exoplanet, who knows what other cosmic revelations await to us in
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the universe. Stay with us as we move on to our next topic.
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But remember this is just the beginning for the James Webb Space Telescope and its
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mission to reshape our understanding of the COSMOS. Europe's space aspirations are taking a
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giant leap forward with the imminent inaugural launch of Ariani six, the newest rocket
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developed by the European Space Agency. This launch isn't just another mission, It's
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vital for ending what some have termed Europe's launcher crisis, a period marked by
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the delays and challenges that stymied independent access to space. But what makes Ariani
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six such a significant milestone for the continent. First and foremost, Ariani six
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represents Europe's best answer to the fast evolving dynamics of the current aerospace industry.
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With a planned flight rate of ten to twelve launches per year, Ariani six
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aims to serve both government and commercial clients efficiently. Its versatile design allows for
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two main configurations, A six two, which is more suited for smaller payloads,
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and Ariani sixty four, configured for heavier missions. This adaptability ensures it
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can cater to a wide range of payload requirements, making it a robust choice
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for varied missions. One major boost is the strong interest from commercial players.
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Ariani six has already secured an impressive lineup of thirty orders, including eighteen launches
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for Amazon's Project Kuyper satellite constellation. A full order book before the rocket has
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even flown, speaks volumes about the trust placed in this new launch vehicle.
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However, the celebration is tempered by the reality of the fierce competition Ariani six
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faces. SpaceX has revolutionized the industry with its reusable Falcon nine rockets, which
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can be used multiple times, significantly reducing costs. Notably, SpaceX's Starship,
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which is still in development, proposes to deliver massive payloads at rock bottom prices
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per kilogram. Such advancements pose a looming threat to traditional expendable rockets like the
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Ariani six. Another challenge is staying operationally independent while balancing collaborations. The European
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Space Agency and Ariani Group must ensure that Ariani six delivers on its promises of
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cost, efficiency and reliability. To remain competitive, they have built partnerships with
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various stakeholders to diversify Ariani six's capabilities, addressing multiple market segments from heavy lift
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to medium payloads. One aspect working in Ariani six's favor is its capabilities tailored
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for geotransfer orbits and high energy missions necessary for tasks such as launching navigation satellites
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and interplanetary missions. Here, the rocket's sophisticated design with its enhanced upper stage
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featuring Vinci engines, provides the required thrust and precision. While critics argue that
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Ariani six might become obsolete in the face of upcoming reusable rockets, it's clear
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that Europe has positioned Ariani six as a crucial player in the space launch market.
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Balancing between cutting edge innovations and law long standing reliability, Ariani six aims
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to secure Europe's footing in the increasingly competitive domain of space launches. So as
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we watch the Ariani six prepare for its first flight, the rocket symbolizes much
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more than a technological achievement. It represents Europe's resilience and ambition to claim its
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spot as a global space power. As it lifts off, it carries with
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it the hopes of meeting new space frontiers and overcoming the rigorous demands of a
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rapidly changing aerospace landscape. The subru telescope has made yet another significant discovery by
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identifying new objects beyond the previously known boundaries of the Kuiper Belt. This region,
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lying beyond Neptune is a fascinating part of our Solar system, filled with
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icy bodies and small celestial objects. The Subaru Telescope's expanded view into this remote
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area has the potential to transform our understanding of the outer Solar system. The
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Kuiper Belt traditionally is thought to end abruptly around fifty atomical units AU from the
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Sun, setting a distinct boundary for this region. However, recent findings from
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the Subaru telescope suggest that there may be more beyond this limit. Using the
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hypersuprimecam, a powerful observational tool, researchers have been able to identify objects that
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hint at a possible extension of the Kuiper Belt. One of the major contributors
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to this discovery, doctor Fumi Yoshida and his team utilized an innovative method that
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layered consecutive images to detect the movement of distant objects. This analysis has led
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to the identification of seven new celestial bodies. Two of these have already had
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their orbits preliminarily determined, receiving provisional designation from the Minor Planet Center. The
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implications of this discovery are immense. If these new objects truly reside beyond the
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fifty AU boundary, it could indicate that our Solar System's primordial nebula extended much
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further than we previously believed. This would not only reshape our understanding of the
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Kuiper Belt, but also offer fresh insights into the formation and evolution of our
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Solar system. Moreover, the collaboration between the Subaru Telescope and NASA's New Horizons
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mission continues to yield impressive results. The New Horizons mission, which famously flew
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by Pluto in twenty fifteen and another Kuiper Belt object, Aricoth in twenty nineteen,
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relies heavily on such contributions to navigate and study these distant regions. In
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summary, these new findings from the Subaru Telescope are not just about adding more
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objects to a catalog. They're about unveiling the dynamic history and ongoing processes that
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govern our cosmic neighborhood. As researchers continue to analyze the data and spot more
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distant objects, our map of the Solar System grows more detailed. And intriguing.
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This is just the beginning of what promises to be a deeper exploration into
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one of the most mysterious regions in our celestial backyard. That's all for today's
00:14:58
episode. Thanks thanks for joining me on this cosmic journey. Don't forget to
00:15:01
visit our website at Astronomy Daily dot io to listen to all our podcast episodes
00:15:07
and check out the latest space news from our continually updating news feed. You
00:15:11
can also find more space news and stay connected with us by following Astronomy Daily
00:15:15
on Facebook, X and TikTok. Stay curious, keep exploring, and always
00:15:20
remember to keep looking up day Star, Stoll, starz all sor