UNDERSTANDING THE THERMODYNAMIC PROPERTIES OF SUPERFLUID HELIUM FOR QUANTUM COMPUTING AND PARTICLE ACCELERATOR TECHNOLOGIES

Igor R.Vasiliev

Go Back Research Article January, 2025

International Journal of Cryogenic Engineering

UNDERSTANDING THE THERMODYNAMIC PROPERTIES OF SUPERFLUID HELIUM FOR QUANTUM COMPUTING AND PARTICLE ACCELERATOR TECHNOLOGIES

Igor R.Vasiliev

Abstract

Superfluid helium exhibits unique thermodynamic properties, including zero viscosity, high thermal conductivity, and quantum mechanical phenomena, making it a promising candidate for applications in quantum computing and particle accelerator technologies. This paper explores the key thermodynamic features of superfluid helium, reviews recent literature, and highlights its role in advancing technological frontiers. Emphasis is placed on its thermal stability, cooling capabilities, and quantum coherence under extreme conditions.

Keywords

superfluid helium thermodynamic properties quantum computing particle accelerators quantum coherence thermal stability.

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Volume 3

Issue 1

Pages 1-6

ISSN 1205-1680

UNDERSTANDING THE THERMODYNAMIC PROPERTIES OF SUPERFLUID HELIUM FOR QUANTUM COMPUTING AND PARTICLE ACCELERATOR TECHNOLOGIES

Abstract

Keywords

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