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New Delhi: Hundreds of Mysterious Entities free floating planetwas discovered by NASA’s James Webb Space Telescope (JWST) and has intrigued scientists for years.Recent research may bring us closer to these explanations. heavenly wandererknown as rogue planet, floating in space without orbiting a star. Among these, a pair of Jupiter-sized worlds orbiting each other are Jupiter-mass binary object (JuMBO) is particularly perplexing to astronomers.
First identified over 20 years ago using a British infrared telescope in Hawaii, the existence of rogue planets has been confirmed by numerous observations, and JWST’s powerful capabilities have revealed more than 500 planets within the Orion Nebula. discovered such a planet. Remarkably, 80 of these planets were found to form pairs with masses ranging from 0.7 to 13 times that of Jupiter.
JuMBO and the formation of rogue planets have been the subject of speculation. One theory suggests that these planets could form through the gravitational collapse of clouds of gas and dust, similar to the process of star formation. Another theory postulates that these planets could be ejected from their original planetary systems through gravitational interactions with large objects such as passing stars, the Live Science report said. .
Don Lai, a professor of astrophysics at Cornell University, and Huangyuan Yu, a student at Shanghai Jiao Tong University in China, to test the potential of stellar flyby theory in the creation of JuMBOs and lone free-floating planets. We conducted tens of thousands of simulations. (FFP). Their findings indicate that while a single planet is significantly more likely to be ejected during such an encounter, the probability that a pair of planets will be ejected simultaneously is lower than 1 even under the most favorable conditions. It suggests that it is less than %.
Lai and Yu’s simulation results, published in The Astrophysical Journal and published as preprints on arXiv, support the cloud collapse model as a more plausible explanation for JuMBO’s formation. These simulations can serve not only as a theoretical basis but also as a guide for future astronomical observations, potentially aiding in the discovery and understanding of astronomical observations. exotic planetary system.
As construction of the Vera C. Rubin Observatory in Chile continues, insights gained from this research are expected to improve our understanding of the dynamics of planetary systems and captured planets within dense star clusters.
First identified over 20 years ago using a British infrared telescope in Hawaii, the existence of rogue planets has been confirmed by numerous observations, and JWST’s powerful capabilities have revealed more than 500 planets within the Orion Nebula. discovered such a planet. Remarkably, 80 of these planets were found to form pairs with masses ranging from 0.7 to 13 times that of Jupiter.
JuMBO and the formation of rogue planets have been the subject of speculation. One theory suggests that these planets could form through the gravitational collapse of clouds of gas and dust, similar to the process of star formation. Another theory postulates that these planets could be ejected from their original planetary systems through gravitational interactions with large objects such as passing stars, the Live Science report said. .
Don Lai, a professor of astrophysics at Cornell University, and Huangyuan Yu, a student at Shanghai Jiao Tong University in China, to test the potential of stellar flyby theory in the creation of JuMBOs and lone free-floating planets. We conducted tens of thousands of simulations. (FFP). Their findings indicate that while a single planet is significantly more likely to be ejected during such an encounter, the probability that a pair of planets will be ejected simultaneously is lower than 1 even under the most favorable conditions. It suggests that it is less than %.
Lai and Yu’s simulation results, published in The Astrophysical Journal and published as preprints on arXiv, support the cloud collapse model as a more plausible explanation for JuMBO’s formation. These simulations can serve not only as a theoretical basis but also as a guide for future astronomical observations, potentially aiding in the discovery and understanding of astronomical observations. exotic planetary system.
As construction of the Vera C. Rubin Observatory in Chile continues, insights gained from this research are expected to improve our understanding of the dynamics of planetary systems and captured planets within dense star clusters.
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