The article explores the enigma of dark matter, a substance that shapes the universe yet remains largely invisible. It highlights the distinction between gravitational forces, which define dark matter's influence, and electromagnetic forces, which govern regular matter interactions. Instead of searching for a singular particle, researchers may need to consider a range of dark particles and their interactions within a separate 'dark sector.' This paradigm shift could reshape our understanding of cosmic evolution and the nature of the universe itself.
Our galactic home, the Milky Way, is submerged in dark matter, but this hidden body does not devour us, because its forces cannot touch the regular matter we're made of.
Yet dark matter might not be one particular particle—it may be a whole hidden sector of dark particles and forces, creating a hidden world of cosmology running parallel to our own.
The interactions of nuggets could have profound implications for the evolution of normal matter throughout time, leading to dynamics we have yet to understand.
Gravity, while a key force, is the weakest of nature's forces; to unravel dark matter's mysteries, we must consider more than just gravitational effects.
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