![]() But the timing and nature of this dramatic process remains uncertain. Korenaga: It is now appreciated that the planets in our inner solar system - Mercury, Venus, Earth, and Mars - were strongly affected by the orbital migration of the giant planets, such as Jupiter and Saturn. What sort of clues would you be looking for? It is thought that the moon formed via a gigantic collision with Earth at the end of Earth’s formation, and the clues needed to unravel the nature of this event are still on the moon. The moon thus has a tremendous potential to provide fundamental advances in our understanding of the origin and early evolution of the solar system. Jun Korenaga: The moon preserves the record of ancient conditions and events, and it is also accessible for human exploration. What makes the moon advantageous as a site for further study? In an interview with Yale News, Korenaga, a professor of Earth and planetary sciences in Yale’s Faculty of Arts and Sciences, describes his role in CLOE, what we still don’t know about the formation and early evolution of the moon - and why a new understanding of these mysteries is important. Led by the Southwest Research Institute in Colorado, the project will coordinate its efforts with ongoing NASA lunar science missions such as Artemis, which is expected to send humans back to the Moon later in this decade, and the Commercial Lunar Payload Services Initiative, which will deliver needed technology and equipment to the moon. institutions and international collaborators that will work with CLOE. Korenaga, whose research focuses on how Earth evolved to support life, is part of a team that includes 18 scientists from seven U.S. On May 11, NASA announced funding for five lunar science and lunar sample analysis research projects - including $7.5 million for CLOE - as part of NASA’s Solar System Exploration Research Virtual Institute (SSERVI). The ambitious project, known as the Center for Lunar Origin and Evolution (CLOE), will conduct basic research in support of future human and robotic exploration of the far side of the moon. On Twitter, Facebook, Google News, and Instagram.Over the next five years, Yale geophysicist Jun Korenaga will be part of a scientific project funded by NASA to study the origin and early development of the Earth’s moon. Studying such a close and young Type II supernova may yield new clues about massive stars and how they explode.įollow HT Tech for the latest tech news and reviews, also keep up with us SN 2023ixf will likely brighten and remain visible to telescopes for months. The featured image shows home spiral galaxy two days ago with the supernova highlighted, while the roll-over image shows the same galaxy a month before. ![]() Rapid follow up observations already indicate that SN 2023ixf is a Type II supernova, an explosion that occurs after a massive star runs out of nuclear fuel and collapses. SN 2023ixf occurred in the photogenic Pinwheel Galaxy M101, which, being only about 21 million light years away, makes it the closest supernova seen in the past five years, the second closest in the past 10 years, and the second supernova found in M101 in the past 15 years. The supernova, dubbed SN 2023ixf, was discovered by Japanese astronomer Koichi Itagaki three days ago and subsequently located on automated images from the Zwicky Transient Facility two days earlier. ![]() ![]() NASA's description of the pictureĪfter this nearby star exploded, humanity's telescopes quickly turned to monitor it. The picture was captured by astrophotographer Craig Stocks.
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