Concept of momentum-less bodies and a suggestion for its experimental   verification using ultra-cold atoms

Sanjay M. Wagh

arXiv:0804.0287·physics.gen-ph·April 3, 2008·1 cites

Concept of momentum-less bodies and a suggestion for its experimental verification using ultra-cold atoms

Sanjay M. Wagh

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TL;DR

This paper proposes that ultra-cold atoms in optical lattices can experimentally verify whether energy-quanta are momentum-less bodies, challenging traditional notions supported by the General Principle of Relativity.

Contribution

It introduces a novel experimental approach to test the momentum-less nature of energy-quanta using ultra-cold atoms in optical lattices.

Findings

01

Potential experimental verification of momentum-less bodies.

02

Supports the notion of energy-quanta having zero momentum.

03

Bridges theoretical principles with practical experimental methods.

Abstract

General Principle of Relativity unequivocally supports the notion of momentum-less energy for bodies (energy-quanta) moving at the {\em same} or {\em constant} speed relative to all the reference systems. In this communication, we point out that whether energy-quantum is a momentum-less body or not is verifiable using ultra-cold atoms trapped in an optical lattice, perhaps with some minor modifications to the existing such experimental setups.

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Taxonomy

TopicsCold Atom Physics and Bose-Einstein Condensates · Advanced Frequency and Time Standards · Quantum Mechanics and Applications