Third-order and fifth-order nonlinear spin-current generation in g-wave and i-wave altermagnets, and perfectly nonreciprocal spin-current in f-wave magnets
Abstract
A prominent feature of d-wave altermagnets is the pure spin current generated in the absence of spin-orbit interactions. In the context of symmetry, there are the s-wave, the p-wave, the d-wave, the f-wave, the g-wave and the i-wave magnets. In this paper, making an analytic study of two-band Hamiltonian systems coupled with electrons, we demonstrate unexpectedly that only the -th order nonlinear transverse spin current proportional to E is generated in higher-wave symmetric magnets when the number of the nodes is +1. Here E is applied electric field. The nonlinear spin current is essential provided the linear spin current is absent. Indeed, only the third-order nonlinear spin current is generated in g-wave altermagnets, while only the fifth-order spin current is generated in i-wave altermagnets. In particular, only the second-order nonlinear spin current is generated in f-wave magnets, which leads to a perfect nonreciprocal spin current. On the other hand, there is no spin-current generation in p-wave magnets.
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