Scientific Reports (Aug 2023)

Bose glass and Fermi glass

  • Korekiyo Takahashi,
  • Keiji Nakatsugawa,
  • Masahito Sakoda,
  • Yoshiko Nanao,
  • Hiroyoshi Nobukane,
  • Hideaki Obuse,
  • Satoshi Tanda

DOI
https://doi.org/10.1038/s41598-023-39285-1
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

Read online

Abstract It is known that two-dimensional superconducting materials undergo a quantum phase transition from a localized state to superconductivity. When the disordered samples are cooled, bosons (Cooper pairs) are generated from Fermi glass and reach superconductivity through Bose glass. However, there has been no universal expression representing the transition from Fermi glass to Bose glass. Here, we discovered an experimental renormalization group flow from Fermi glass to Bose glass in terms of simple $$\beta$$ β -function analysis. To discuss the universality of this flow, we analyzed manifestly different systems, namely a Nd-based two-dimensional layered perovskite and an ultrathin Pb film. We find that all our experimental data for Fermi glass fall beautifully into the conventional self-consistent $$\beta$$ β -function. Surprisingly, however, flows perpendicular to the conventional $$\beta$$ β -function are observed in the weakly localized regime of both systems, where localization becomes even weaker. Consequently, we propose a universal transition from Bose glass to Fermi glass with the new two-dimensional critical sheet resistance close to $$R_\Box = h/e^{2}$$ R □ = h / e 2 .