Electromagnetic Light in Medium of Polarized Atoms $^3$He

V.N. Minasyan

arXiv:0809.0266·physics.gen-ph·April 1, 2009

Electromagnetic Light in Medium of Polarized Atoms $^3$He

V.N. Minasyan

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Open Access

TL;DR

This paper predicts that polarized helium-3 atoms can increase the speed of electromagnetic waves in a medium, suggesting a higher velocity than in vacuum due to atomic polarization effects.

Contribution

It introduces a theoretical prediction that polarized $^3$He atoms can enhance electromagnetic wave speed in a medium, a novel insight into light-matter interactions.

Findings

01

Polarized $^3$He atoms increase electromagnetic wave velocity.

02

Electromagnetic wave speed in polarized helium-3 exceeds that in vacuum.

03

Theoretical prediction of light speed enhancement in polarized atomic gases.

Abstract

First, it is predicted that polarized atoms $^{3}$ He increase a value of speed electromagnetic waves. This reasoning implies that the velocity of electromagnetic waves into gas consisting of polarized atoms $^{3}$ He is rather than one in vacuum.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Advanced Physical and Chemical Molecular Interactions · Quantum Mechanics and Applications