Nonlinear spin-Seebeck diode in f-wave magnets, third-order spin-Nernst effects in g-wave magnets and spin-Nernst effects in i-wave altermagnets

Abstract

A prominent feature of d-wave altermagnets is that spin current is generated by applying temperature gradient, which is known as the spin-Nernst effect. We show in f-wave magnets that spin current is generated proportional to the square of the temperature gradient, which we call the nonlinear spin-Seebeck current. It can be used as a spin current diode. In addition, we show in g-wave altermagnets that spin current is generated in the third order of the temperature gradient. We also show in i-wave altermagnets that spin current is generated perpendicular to the temperature gradient, which is the spin-Nernst current. We have derived analytic formulas for these spin currents. It is interesting that these phenomena occur in the absence of the spin-orbit interaction. On the other hand, we show in p-wave magnets that spin current is not generated by temperature gradient.