Train Passing the Lee Valley Bridge , Chingford Line

Train Passing the Lee Valley Bridge , Chingford Line

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Someone tried Fundamental Atomic Property To Turn Matter Invisible

 

A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is suppressed.

How Ultracold, Superdense Atoms Become Invisible

A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is suppressed.

An atom’s electrons are arranged in energy shells. Like concertgoers in an arena, each electron occupies a single chair and cannot drop to a lower tier if all its chairs are occupied. This fundamental property of atomic physics is known as the Pauli exclusion principle, and it explains the shell structure of atoms, the diversity of the periodic table of elements, and the stability of the material universe.

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.

Normally, when photons of light penetrate a cloud of atoms, the photons and atoms can ping off each other like billiard balls, scattering light in every direction to radiate light, and thus make the cloud visible. However, the MIT team observed that when atoms are supercooled and ultrasqueezed, the Pauli effect kicks in and the particles effectively have less room to scatter light. The photons instead stream through, without being scattered.

MIT Physicists Use Fundamental Atomic Property To Turn Matter Invisible