Nature Communications (Jan 2024)

Orbital-flop transition of superfluid 3He in anisotropic silica aerogel

  • M. D. Nguyen,
  • Joshua Simon,
  • J. W. Scott,
  • A. M. Zimmerman,
  • Y. C. Cincia Tsai,
  • W. P. Halperin

DOI
https://doi.org/10.1038/s41467-023-44557-5
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 11

Abstract

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Abstract Superfluid 3He is a paradigm for odd-parity Cooper pairing, ranging from neutron stars to uranium-based superconducting compounds. Recently it has been shown that 3He, imbibed in anisotropic silica aerogel with either positive or negative strain, preferentially selects either the chiral A-phase or the time-reversal-symmetric B-phase. This control over basic order parameter symmetry provides a useful model for understanding imperfect unconventional superconductors. For both phases, the orbital quantization axis is fixed by the direction of strain. Unexpectedly, at a specific temperature T x , the orbital axis flops by 90∘, but in reverse order for A and B-phases. Aided by diffusion limited cluster aggregation simulations of anisotropic aerogel and small angle X-ray measurements, we are able to classify these aerogels as either “planar" and “nematic" concluding that the orbital-flop is caused by competition between short and long range structures in these aerogels.