One question, for instance, might be why can't we walk through walls? Atoms, which are the building blocks of matter, are ...

Have you ever wondered what would happen if you tried to build an object made entirely of neutrons? Imagine a neutron tennis ...

In the world of quantum mechanics, particles behave in ways that can seem almost magical. One of the most fascinating rules governing this realm is the Pauli exclusion principle. Proposed by ...

When all available quantum states are full, atoms can’t scatter light, thanks to the Pauli exclusion principle, new experiments show.

Scientists created a new type of crystal, based only on a quantum rule called the Pauli exclusion principle, by using lasers to confine lithium atoms (illustrated at center) to a region within a ...

The Pauli exclusion principle is a law of quantum mechanics introduced by Austrian physicist Wolfgang Pauli, which offers valuable insight about the structure of matter.

violating the Pauli exclusion principle, a team of researchers from the University of Illinois at Urbana-Champaign and Rutgers University report. Any theory that does not embrace the Pauli ...

If it weren't for the Pauli Exclusion Principle, the matter we have in our Universe would behave in an extraordinarily different fashion. The electrons, you see, are examples of fermions.

Now, MIT physicists have observed the Pauli exclusion principle, or Pauli blocking, in a completely new way: They've found that the effect can suppress how a cloud of atoms scatters light.

Letter Published: 23 April 1927 Relation between the Reciprocal Impenetrability of Matter and Pauli's Exclusion Principle: a Correction P. EHRENFEST Nature 119, 602 (1927) Cite this article ...

Physicists are often seen as some of the smartest people out there. According to The Tab, studies in the past have assessed ...