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Superconducting vortices carrying a temperature-dependent fraction of the flux quantum.

Yusuke IguchiRuby A ShiKunihiro KihouChul-Ho LeeMats BarkmanAndrea L BenfenatiVadim GrinenkoEgor BabaevKathryn A Moler
Published in: Science (New York, N.Y.) (2023)
Magnetic field penetrates type-II bulk superconductors by forming quantum vortices that enclose a magnetic flux equal to the magnetic flux quantum. The flux quantum is a universal quantity that depends only on fundamental constants. Here we investigate isolated vortices in the hole-overdoped Ba 1- x K x Fe 2 As 2 ( x = 0.77) by using scanning superconducting quantum interference device (SQUID) magnetometry. In many locations, we observed vortices that carried only part of a flux quantum, with a magnitude that varied continuously with temperature. We interpret these features as quantum vortices with non-universally quantized (fractional) magnetic flux whose magnitude is determined by the temperature-dependent parameters of a multiband superconductor. The demonstrated mobility and manipulability of the fractional vortices may enable applications in fluxonics-based computing.
Keyphrases
  • molecular dynamics
  • energy transfer
  • monte carlo
  • molecularly imprinted
  • high resolution
  • quantum dots