Ground breaking results of dark matter strongly support the Einstein's theory of general relativity

Physics in, 2023
Physics discoveries.
Explaining the dark matter.
Understanding the universe.
How dark matter map support the Einstein's theory of general relativity.
Physics ground breaking news- April, 2023
Einstein's theory of general relativity and the dark matter updates.
Understanding the Dark Matter 
The new updates about the Einstein's theory of general relativity.
Ground breaking results of dark matter strongly support the Einstein's theory of general relativity.
The Astronomer's new research further supporting the Einstein's theory of general relativity
Physics | Astro-Physics | Astronomy | Cosmology | Fundamental Laws of Physics | Albert Einstein's theories 

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Astronomers have recently made a groundbreaking discovery by creating the most detailed map of dark matter distribution using the Cosmology Telescope.

Dark matter, which makes up roughly 87% of all matter in the universe, has been a mystery that scientists have been trying to unravel for decades. 

This new research provides further support for Albert Einstein's theory of general relativity, which has been the foundation of our understanding of the universe for the past century.

The researchers used a phenomenon called gravitational lensing to measure the distortion of Cosmic Microwave Background  radiation, a type of light that originated from the Big Bang, by the gravity of large heavy structures such as dark matter. 

By mapping the location of dark matter through gravitational lensing, scientists were able to study its interactions with light and gravity in great detail.

The results of this research were so in line with Einstein's theory of gravity that it took some time for researchers to process and comprehend the significance of the findings. 

The map's data revealed the overall "lumpiness" of the universe and its expansion rate, both of which align with the predictions made by Einstein. This highlights the effectiveness of the ACT in advancing our understanding of the universe.

Dark matter and its counterpart, dark energy, together comprise a significant portion of the universe, with dark matter accounting for 29% and dark energy for 68%. While scientists have yet to determine exactly what dark matter and dark energy are, they have ruled out several possibilities. Dark matter does not interact with light, absorb radiation like normal matter, or produce gamma rays like antimatter when it annihilates with normal matter.

This groundbreaking research has a significant step forward in our understanding of dark matter and the universe as a whole. Scientists hope that this experiment will pave the way for more sensitive experiments involving cosmic microwave background radiation, shedding further light on the mysteries of dark matter and dark energy. 

Understanding these elusive components of the universe is crucial for unlocking the secrets of the cosmos and advancing our understanding of the fundamental laws of physics.