Electromagnetically induced vorticity control in a quantum fluid   velocity field

T. E. Raptis

arXiv:1306.4893·quant-ph·June 21, 2013

Electromagnetically induced vorticity control in a quantum fluid velocity field

T. E. Raptis

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Open Access

TL;DR

This paper introduces a novel electromagnetic method to control vorticity in quantum fluids, enabling specific flux configurations in many-body systems, with potential applications in high-temperature superconductivity and gravitational wave research.

Contribution

It presents a new technique for inducing targeted flux configurations in quantum fluids using electromagnetic fields, expanding control possibilities in quantum hydrodynamics.

Findings

01

Demonstrates electromagnetic control of quantum vorticity.

02

Proposes applications in HTC and gravitational wave detection.

03

Provides a theoretical framework for flux configuration manipulation.

Abstract

A new method is reported by which it is possible to induce certain flux configurations of desired characteristics via electromagnetic means into the overall quantum probability current of a many-body system in the Madelung hydrodynamic picture. Some indicative applications are also considered with emphasis in HTC and gravitational wave research.

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Taxonomy

TopicsSolar and Space Plasma Dynamics