Analysis of model-parameter dependences on the second-order nonlinear conductivity in <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mi mathvariant="script">PT</mml:mi></mml:math> -symmetric collinear antiferromagnetic metals with magnetic toroidal moment on zigzag chains
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In this paper , the second-order nonlinear conductivity on a two-dimensionalally stacked zigzag chain based on the nonlinear Kubo formula was analyzed and it was shown that an effective coupling between the magnetic toroidal moment and the antisymmetric spin-orbit interaction is an essential source of the secondorder conductivity, and the nonreciprocal longitudinal current and nonlinear transverse current in a multi-band system are largely enhanced just below the transition temperature of the antiferromagnetic ordering.Abstract:
A magnetic toroidal moment is a fundamental electronic degree of freedom in the absence of both spatial inversion and time-reversal symmetries and gives rise to novel multiferroic and transport properties. We elucidate essential model parameters of the nonlinear transport in the space-time ($\mathcal{PT}$) symmetric collinear antiferromagnetic metals accompanying a magnetic toroidal moment. By analyzing the longitudinal and transverse components of the second-order nonlinear conductivity on a two-dimensionally stacked zigzag chain based on the nonlinear Kubo formula, we show that an effective coupling between the magnetic toroidal moment and the antisymmetric spin-orbit interaction is an essential source of the nonlinear conductivity. Moreover, we find that the nonreciprocal longitudinal current and nonlinear transverse current in a multi-band system are largely enhanced just below the transition temperature of the antiferromagnetic ordering. We also discuss the relevance of the nonlinear conductivity to the linear magnetoelectric coefficient and conductivity. Our result serves as a guide for exploring microscopic essence and clarifying the parameter dependence of the nonlinear conductive phenomena in ferrotoroidal metals. read more
Citations
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Multifarious skyrmion phases on a trilayer triangular lattice
TL;DR: In this paper , the instability of a magnetic skyrmion crystal in centrosymmetric trilayer magnets is investigated based on a spin model with layer-dependent Dzayloshinskii-Moriya interaction.
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Nonlinear nonreciprocal transport in antiferromagnets free from spin-orbit coupling
TL;DR: In this paper , a nonlinear non-reciprocal transport in antiferromagnets without relying on the relativistic spin-orbit coupling was proposed, and the authors showed that a local spin scalar chirality to induce an asymmetric band modulation becomes a source of a Drude-type nonlinear transport, while an electric polarization induced by a collinear spin configuration in a triangle unit leads to a Berry-curvature-dipole-type transport.
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Nonlinear spin Hall effect in <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML"><mml:mi mathvariant="script">PT</mml:mi></mml:math> -symmetric collinear magnets
TL;DR: In this article , a nonlinear spin Hall effect was theoretically investigated in symmetric antiferromagnetic metals, which serve as an efficient spin current generator, and an emergent spin-dependent Berry curvature dipole was proposed as the microscopic origin of the effect.
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Nonreciprocal Transport in Noncoplanar Magnetic Systems without Spin–Orbit Coupling, Net Scalar Chirality, or Magnetization
TL;DR: In this paper , a non-linear non-reciprocal transport in magnetic systems is proposed, which does not require any relativistic spin-orbit coupling, net scalar chirality, and net magnetization.
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Spin Conductivity Based on Magnetic Toroidal Quadrupole Hidden in Antiferromagnets
TL;DR: In this article , the role of the magnetic toroidal quadrupole (MTQ) in electron systems was investigated and it was shown that the MTQ becomes a source of an extrinsic spin conductivity even with neither a uniform magnetization nor spin-orbit coupling.
References
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TL;DR: In this article, the concept of toroidal moments in condensed-matter physics and their long-range ordering in a so-called ferrotoroidic state is reviewed and the relationship between the toroidal moment and the antisymmetric magnetoelectric effect is discussed.
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