The fate of p-wave spin polarization in helimagnets with Rashba spin-orbit coupling

Abstract

It has recently been realized that magnetic systems with coplanar magnetic order that are invariant under the combined operation of time-reversal and translation with half a unit cell feature energy bands with a symmetry-protected p-wave spin polarization. Such p-wave magnets are a sought-after spin analogy of unconventional triplet superconducting pairing and show promise for use in spintronics. Metallic helimagnets provide a realization of p-wave magnetism, but such order often occurs in systems lacking inversion symmetry so that Rashba spin-orbit interactions can be prominent. An important question is therefore how the magnitude and the existence of p-wave spin polarization is affected by Rashba spin-orbit interaction. Here, we prove that while the p-wave symmetry of the spin-polarized bands is strictly speaking removed by such spin-orbit interactions in helimagnets unless the period of the helix is fine-tuned, the actual quantitative deviation from p-wave symmetry is extremely weak unless the period of the helix is only a few lattice sites. Thereafter, we show that the p-wave magnetism becomes completely robust in pairs of antiferromagnetically coupled helices. More precisely, the p-wave spin-polarization of the bands then appears regardless of the periodicity and regardless of the strength of the spin-orbit interactions. This shows that antiferromagnetically coupled helimagnetic chains produce robust p-wave spin polarization free of fine-tuning requirements, making them attractive for potential spintronic applications.

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