New subatomic particle discovery may challenge the Standard Model and explain why matter dominates over antimatter in the ...

That is, until now. In a groundbreaking scientific experiment, a team at Northwestern University’s McCormick School of ...

In the vast ocean of existence, a silent dance pulses through every particle, every atom, every breath. This dance is ancient ...

As the world gears up for more powerful particle colliders, new 4D quantum sensors tested at Fermilab promise sharper ...

Smashing subatomic particles together at near-light speeds has long been the best way to understand the universe’s fundamental building blocks. These high-energy collisions, conducted inside ...

The best way to do that so far has been to slam particles together at near the speed of light and sift through the subatomic mess, and one of the best place in the world to do that is at CERN’s Large ...

They're not just leaders of their industry. Their underlying businesses are also on the verge of enormous growth.

He used topology and differential geometry to understand the structure of the theories underlying the Standard Model, currently scientists’ best framework to understand how subatomic particles ...

Srivastava and his team used quantum nuclear theory—which uses quantum mechanics to understand the behaviour of subatomic particles—and calculated that protons on the surface of Sagittarius A* reach ...

Quantum computers perform powerful computations by leveraging quantum principles, such as superposition, the idea that subatomic particles can exist simultaneously in multiple states, and ...

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