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Auteur principal: Nemirovskii, Sergey
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2503.16190
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author Nemirovskii, Sergey
author_facet Nemirovskii, Sergey
contents The study explores the development of the vortex line density in superfluids under thermal activation. This problem is of interest to both applied and fundamental research, and has been investigated by many authors in various aspects. Despite the important and impressive results obtained, a significant part of the process, namely the kinetics of processes leading to equilibrium state, remained unexplored. In this article, we conduct a study of kinetic phenomena and focus our attention on the evolution of the vortex line density (VLD) L(t), the total length of the filament per unit volume. The initial development of VLD is due to random thermal fluctuations. The increase in the vortex line length L(t) can be obtained based on the famous Novikov-Furutsu theorem, which shows that the growth rate of L(t) is proportional to a random force correlator. As the length of the vortex filaments increases, the interaction between the vortices becomes significant and affects the dynamics process. At this point, we turn to the phenomenological Feynman-Vinen theory, which offers various models for the evolution of the quantity L(t). Next we examine the evolution of a vortex tangle as a combination of growth due to random thermal excitations and decay in the Feynman-Vinen theory. Several applications leading to significant and remarkable results are considered.
format Preprint
id arxiv_https___arxiv_org_abs_2503_16190
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Dynamics of the vortex line density in superfluids under thermal activation
Nemirovskii, Sergey
Soft Condensed Matter
The study explores the development of the vortex line density in superfluids under thermal activation. This problem is of interest to both applied and fundamental research, and has been investigated by many authors in various aspects. Despite the important and impressive results obtained, a significant part of the process, namely the kinetics of processes leading to equilibrium state, remained unexplored. In this article, we conduct a study of kinetic phenomena and focus our attention on the evolution of the vortex line density (VLD) L(t), the total length of the filament per unit volume. The initial development of VLD is due to random thermal fluctuations. The increase in the vortex line length L(t) can be obtained based on the famous Novikov-Furutsu theorem, which shows that the growth rate of L(t) is proportional to a random force correlator. As the length of the vortex filaments increases, the interaction between the vortices becomes significant and affects the dynamics process. At this point, we turn to the phenomenological Feynman-Vinen theory, which offers various models for the evolution of the quantity L(t). Next we examine the evolution of a vortex tangle as a combination of growth due to random thermal excitations and decay in the Feynman-Vinen theory. Several applications leading to significant and remarkable results are considered.
title Dynamics of the vortex line density in superfluids under thermal activation
topic Soft Condensed Matter
url https://arxiv.org/abs/2503.16190