“Dark Universe” has new insight, including both dark matter and dark energy, emerged from a new method of studying 3D maps of galaxies. Scientists have used sophisticated computer algorithms to analyze the rank relative to galaxies in 3D framework, unveiling the first hidden information that can challenge or support the standard model of cosmology. This method protects the three-dimensional integrity of data, unlike older techniques, provides a deep understanding of the structure of the universe.
New approach to galactic mapping
As Study Under the leadership of Tokyo University’s astronomer Minh Guayen, the latest approach uses advanced field-level estimate (FLI) techniques jointly with algorithms with galaxy growth and dark matters. This technique is made on the traditional method of galaxy surveys, which depended on two-dimensional measurements in the past. By adding a third dimension through redshift data, scientific galaxies are able to map more accurately and analyze their distribution in space.
In traditional methods, data is often compressed in “n-point correlation functions”, shown to obscure the major details, being efficient. The FLI technique, which works directly with 3D data, allows for more fine and detailed analysis of galaxy positioning. In the form of cavity told Space.com, this new method reveals the distribution and behavior of galaxies and hidden information about the darkness around them, which highlights potential anomalies in the current universe principles.
Unlock dark matter secrets
Success can lead to new discoveries about the development of galaxies and their interaction with dark matter. Initial tests have shown a significant improvement in accuracy than traditional methods, researchers have noticed three to five times higher level expansion. The next stage of the test will include real data from upcoming space missions and observatory, including dark energy spectroscopic instrument and vera c. Rubin Observatory includes.
This technique can eventually provide insight into the nature of dark matter and its role in the formation of the universe, potentially unlocked answers to some of the most pressure questions in modern astronomy physics.
