It took over 80,000 baryon decays for us to observe, for the first time, a matter-antimatter asymmetry in this category of particles." View of the LHCb experiment in its underground cavern (image ...

It took more than 80,000 baryon decays for us to see matter–antimatter asymmetry with this class of particles for the first time." Particles are known to have identical mass and opposite charges ...

Distinguished Professor Sheldon Stone says the findings are a first, although matter-antimatter asymmetry has been observed before in particles with strange quarks or beauty quarks. He and members ...

Such matter-antimatter discrepancies are key to explaining ... Such a result could point the way to additional asymmetry that allowed the universe as we know it to form. “It’s just the first ...

Had there ever been an equal amount of antimatter, everything in the universe would have been annihilated. Our research has unveiled a new source of this asymmetry between matter and antimatter.

Antimatter has been detected in solar flares via microwave and magnetic-field data, according to researchers. The finding sheds light on the puzzling strong asymmetry between matter and antimatter ...

If our Universe somehow created a matter/antimatter asymmetry where there initially wasn't one, then the rules that were at play back then should remain unchanged today. If we're clever enough ...

or there is an as-of-yet-undiscovered asymmetry between matter particles and their antimatter counterparts. That is why scientists have been hunting for violations of what is known as charge ...

But since there is something instead of nothing, scientists have long tried to understand this asymmetry between the amounts of matter and antimatter in the universe. This violation of the matter ...

It took over 80,000 baryon decays for us to see matter–antimatter asymmetry with this class of particles for the first time.” Particles are known to have identical mass and opposite charges with ...