Dark matter is an elusive type of matter that does not emit, absorb or reflect light, interacting very weakly with ordinary ...
Axions are hypothetical light particles that could solve two different physics problems, as they could explain why some ...
An Antarctic experiment looking to detect dark matter in space led by University of Hawaii Manoa was launched on Dec. 15.
Interesting Engineering on MSN
New quantum sensor technology could ‘see’ velocity to unmask dark matter
Researchers unveil a quantum measurement protocol that tracks the velocity and direction of wave-like dark matter particles.
What is the nature of dark matter? A new experiment led by Columbia University physics professors aims to find out.
Morning Overview on MSN
Fusion reactors might create dark matter axions, and that’s wild
Fusion power has long been sold as the technology that could light our cities with the same process that powers the stars.
In addition, astrophysical observations had revealed that occasionally, white dwarfs would cool off way faster than expected.
Space.com on MSNOpinion
What old, dying stars teach us about axions as a candidate for dark matter
In recent years, astronomers have become increasingly interested in a theoretical particle known as the axion, which was ...
New results from the MicroBooNE experiment rule out the existence of a sterile neutrino, reshaping how scientists think about ...
A simple explanation of dark matter and antimatter, how they differ, how scientists study them, and why both are important to understanding the universe.
Morning Overview on MSN
Fusion reactors might accidentally create dark matter, new paper claims
Physicists have spent decades chasing two grand technological dreams: harnessing fusion power and uncovering the nature of ...
In collisions at CERN’s Large Hadron Collider, hotter than the Sun’s core by a staggering margin, scientists have finally ...
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