English

Molecular Tagging Velocimetry in Superfluid Helium-4: Progress, Issues, and Future Development

Other Condensed Matter 2020-02-04 v1 Mesoscale and Nanoscale Physics Fluid Dynamics

Abstract

Helium-4 in the superfluid phase (He II) is a two-fluid system that exhibits fascinating quantum hydrodynamics with important scientific and engineering applications. However, the lack of high-precision flow measurement tools in He II has impeded the progress in understanding and utilizing its hydrodynamics. In recent years, there have been extensive efforts in developing quantitative flow visualization techniques applicable to He II. In particular, a powerful molecular tagging velocimetry (MTV) technique, based on tracking thin lines of He2^*_2 excimer molecules created via femtosecond laser-field ionization in helium, has been developed in our lab. This technique allows unambiguous measurement of the normal-fluid velocity field in the two-fluid system. Nevertheless, there are two limitations of this technique: 1) only the velocity component perpendicular to the tracer line can be measured; and 2) there is an inherent error in determining the perpendicular velocity. In this paper, we discuss how these issues can be resolved by advancing the MTV technique. We also discuss two novel schemes for tagging and producing He2^*_2 tracers. The first method allows the creation of a tagged He2^*_2 tracer line without the use of an expensive femtosecond laser. The second method enables full-space velocity field measurement through tracking small clouds of He2^*_2 molecules created via neutron-3^3He absorption reactions in He II.

Cite

@article{arxiv.2002.00265,
  title  = {Molecular Tagging Velocimetry in Superfluid Helium-4: Progress, Issues, and Future Development},
  author = {Wei Guo},
  journal= {arXiv preprint arXiv:2002.00265},
  year   = {2020}
}

Comments

15 pages, 6 figures

R2 v1 2026-06-23T13:27:49.257Z