The author, Avi Loeb, offered a summer project to an undergraduate student, Shokhruz Kakharov, to calculate the past trajectories of the known interstellar objects discovered in the past decade. By reversing the measured velocities of these objects relative to the Local Standard of Rest and numerically integrating their orbits back in time, the team was able to constrain the spatial regions within the Milky Way that could have been the potential birthplaces of these objects.
The analysis revealed that `Oumuamua likely originated near the midplane of the thin disk of young stars in the Milky Way, suggesting an age younger than 1-2 billion years. In contrast, the interstellar comet Borisov exhibited a similar vertical excursion from the Galactic midplane as the Sun, implying a similar age. The interstellar meteor IM1 showed larger vertical excursions, suggesting an older source.
The team also calculated the future trajectories of the interstellar probes launched by NASA, such as Voyager 1 & 2 and Pioneer 10 & 11. They found that these probes will arrive at the opposite side of the Milky Way disk relative to the Sun in about 2 billion years and will return to the vicinity of the Sun in 4 billion years, long before the Sun evolves into a red giant star.
The author suggests that the anomalous properties of some of these interstellar objects, such as the shape and non-gravitational acceleration of `Oumuamua or the material strength and speed of IM1, could potentially be indicative of a technological origin, although he acknowledges that this idea may be controversial.
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by Avi Loeb às avi-loeb.medium.com 07-31-2024
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