| Abstract |
Spin-spiral texture can substantially change charge transport properties in helimagnets. We find the anomalous Hall effect (AHE) exhibiting the dramatic behavior with respect to chemical potential 𝜇 in conical magnetic structures. The direct conductivity demonstrates kinks, and the anomalous Hall current exhibits minima and maxima changing the sign. We analytically derive the expression for energy bands and eigenstates in the most general case. Because of the conical potential, the energy bands are split into two nonparabolic bands where the lower band can have one- or two-minima shapes in the 𝑘𝑧 direction (̂𝒛 is a direction of the spiral axis). We prove that the origin of the anomalous Hall effect is not topological and is due to the interplay between the asymmetry of energy bands in the 𝑥 and 𝑧 directions and spin restrictions in the phase space due to the conical potential. We also investigate the dependence of transport properties on cone half- angle 𝜃, and find that the effects are most pronounced at 𝜃=𝜋/2 (a helical state). Electric current is calculated using the Boltzmann equation where the relaxation is caused by electron-acoustic phonon interaction. The transition probability is found to be a 2×2 matrix with nonvanishing off-diagonal elements indicating the strong interband transitions. The origin of interband transitions is because of the nature of the conical potential where conduction electron spins interact with localized magnetic moments. To verify the proposed theory, we calculate the temperature dependence of resistivity for MnSi crystals and find the discontinuity at the phase transition between conical and paramagnetic phases. The calculations are in the excellent agreement with the experimental data. In addition, we predict the discontinuity behavior for the anomalous Hall resistivity at the phase transition where the resistivity exhibits the abrupt change at 𝑇=𝑇𝐶, (a) to zero if the relativistic effects for the conduction electrons are small or (b) to a nonzero value if Rashba/Dresselhaus effects are taken into account. |
| Authors |
Andrei Zadorozhnyi   , Yuri Dahnovsky
|
| Journal Info |
American Physical Society | Physical Review B: Condensed Matter and Materials , vol: 107
, iss: 3
|
| Publication Date |
1/12/2023 |
| ISSN |
2469-9950 |
Type |
article |
| Open Access |
closed
|
| DOI |
https://doi.org/10.1103/physrevb.107.035202 |
| Keywords |
Spin Hall Effect (Score: 0.614662)
|
