This artist’s impression shows a gas giant exoplanet orbiting a Sun-like star, represented by Kepler-1625b. Credit: NASA
The discovery of giant exomoons around the planets Kepler-1625b and Kepler-1708b raises questions. Since the planets orbit, it is not uncommon for these exoplanets to have moons around them. This makes them even more difficult to detect. So far, only two of the more than 5,300 known exoplanets have been discovered to have moons. New data analysis shows that scientific statements are rarely black and white, that behind every result there is more or less uncertainty, and that the path to a statement often resembles a thriller. Masu.
Introduction to Exomoon research
In observations of the planets Kepler-1625b and Kepler-1708b with the Kepler and Hubble Space Telescopes, researchers discovered the first traces of such moons. New research calls these previous claims into question. Scientists from the Max Planck Institute for Solar System Research and Sonnenberg Observatory in Germany report in the same journal. natural astronomy
The “planet-only” interpretation of the observations is more definitive.
For their analysis, the researchers used Pandora, a newly developed computer algorithm that facilitates and accelerates the search for the Exum Moon. They also investigated what types of exomoons could in principle be discovered with modern space-based astronomical observations. Their answers are quite shocking.
Examoon: A rare entity in observation
In our solar system, with the exception of Mercury and Mercury, the fact that a planet orbits one or more moons is more the rule than the exception. Venus, all other planets have such companions.
For gas giants Saturn Researchers have discovered 140 natural satellites to date. Therefore, scientists believe that planets in distant star systems are also likely to have moons. But so far, there is only evidence for two such examooons: Kepler-1625b and Kepler-1708b. This low yield is not surprising. After all, distant satellites are naturally much smaller than their home world, and therefore much more difficult to find. And combing through observations of thousands of exoplanets for evidence of satellites is extremely time-consuming.
Pandora: Exomoon search algorithm
To make searching easier and faster, the authors of the new study utilize a search algorithm called Pandora that they developed and optimized for exomoon searches. They announced the method last year And the algorithm is available to all researchers as open source code. When applied to observational data from Kepler-1625b and Kepler-1708b, the results were surprising.
“We wanted to confirm the discovery of exomoons around Kepler-1625b and Kepler-1708b,” said MPS scientist Dr. Rene Heller, lead author of the new study. “However, unfortunately, our analysis shows that this is not the case,” he added.
Source: scitechdaily.com
