“Slime reveals the secrets of space. Scientists used mold to model the universe September 27, 11:30 a.m. Share: The cosmic web formed by gravity plays a key role in the evolution of the universe (Photo: Farkhanul Hasan) Author: Kira Borysikhina Scientists have made a breakthrough in studying the large-scale structure of the universe by applying an unexpected the tool is an algorithm that simulates slime growth. Read also: What does the universe hold on to? The sensational theory of British physicists explains”, — write on: ua.news
The cosmic web, formed under the action of gravity, plays a key role in the evolution of the universe (Photo: Farkhanul Hasan)
Scientists have made a breakthrough in studying the large-scale structure of the universe by using an unexpected tool — an algorithm that simulates the growth of slime.
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A new study shows how this unusual approach has helped researchers visualize the cosmic web, a giant network of galaxies and dark matter that stretches across the universe.
The cosmic web, formed under the influence of gravity, plays a key role in the evolution of the universe. However, due to its huge scale and complexity, its study poses significant difficulties. Scientists have long sought effective methods for modeling and visualizing this structure.
A group of researchers led by Farhanul Hasan found that an algorithm designed to mimic the behavior of slime reproduces the structure of the cosmic web surprisingly accurately. By modifying the algorithm, scientists were able to create detailed maps of the distribution of matter in the universe and trace how this structure changed over time.
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The results of the study showed that the influence of the cosmic web on the growth of galaxies changed over time. In the early universe, galaxies grew faster near large structures such as galaxy clusters. However, in later eras, the growth of galaxies, on the contrary, slowed down under the influence of these structures.
This breakthrough opens up new opportunities for studying the evolution of the universe and allows scientists to better understand how galaxies formed and developed. The model, based on the slime algorithm, will help researchers create more accurate maps of the distribution of matter and dark matter in the universe, as well as trace how these structures have interacted with each other over billions of years.