
New insights about the “Dark Universe”, including both dark matter and dark energy, emerged in a new way to study 3D maps of galaxies. Scientists have used sophisticated computer algorithms to analyze positions in the 3D framework, which has previously been unveiled hidden information that can challenge or support the standard model of the universe. This method, unlike old techniques, preserves the three -dimensional integrity of the data, and offers a deep understanding of the universe structure.
New approach to Galaxy mapping
According to Study Under the leadership of astronomer Minagewyen at the University of Tokyo, the latest view of the latest field level envelope (FLI) techniques has been used to model the galaxy growth and dark substances in conjunction with the algorithm. Make. This technique is based on the traditional galaxy survey method, which in the past relied on two -dimensional measurements. By adding third dimensions through red shift data, scientists have been able to make galaxies more accurately map and analyze their distribution in space.
In traditional methods, the data is often included in the “N-Point Communication functions”, which, despite being effective, has been shown to disperse key details. The FLI technique, which works directly with 3D data, allows for more proportional and detailed analysis about the galaxy positioning. As a nugiwin Told Space.com, this new way shows the hidden information about the distribution and behavior of galaxies and the dark matter around them, highlighting the potential contradictions in the current cosmic theories.
Unlocking the mystery of the dark matter
This development can lead to new discoveries about the evolution of galaxies and their interactions with dark matter. Compared to traditional methods, preliminary tests have shown significant improvement, with researchers considering three to five times more detail. The next phase of testing will include real data from space missions and spaces, including the Dark Energy Spectroscopic device and the Vera Sea Robin Observatory.
This technique can eventually provide insights about the nature of the dark matter and its role in shaping the universe, potentially unlocking some of the most important questions of modern astronomical physics.