Physical Review B, volume 106, issue 19, publication number 195134

Magnon scattering modulated planar Hall effect in a ferromagnet/topological insulator heterostructure

Publication typeJournal Article
Publication date2022-11-17
scimago Q1
SJR1.345
CiteScore6.3
Impact factor3.2
ISSN24699950, 24699969, 10980121, 1550235X
Abstract
We study in-plane magnetotransport for the interface of a ferromagnet insulator (FMI) and a topological insulator (TI), taking into account thermal fluctuation effect of the magnetization in the FMI. It is found that the planar Hall effect (PHE) can display complicated angular dependencies beyond the standard paradigm ${\ensuremath{\sigma}}_{xx}\ensuremath{\sim}({\ensuremath{\sigma}}_{\ensuremath{\parallel}}\ensuremath{-}{\ensuremath{\sigma}}_{\ensuremath{\perp}}){cos}^{2}\ensuremath{\theta}$ and ${\ensuremath{\sigma}}_{xy}=({\ensuremath{\sigma}}_{\ensuremath{\parallel}}\ensuremath{-}{\ensuremath{\sigma}}_{\ensuremath{\perp}})sin\ensuremath{\theta}cos\ensuremath{\theta}$, where ${\ensuremath{\sigma}}_{\ensuremath{\parallel}(\ensuremath{\perp})}$ is the longitudinal conductivity in the direction parallel (vertical) to the magnetic field and $\ensuremath{\theta}$ denotes the relative angle between the applied electric and magnetic fields. The rich structures in angular dependence of the conductivities can arise from the cooperation and competition effect between multiple coexisting mechanisms, e.g., impurity and magnon scattering, band anisotropy, as well as reconstruction of the electronic structure by magnetic fields. Consequently, in addition to the relative angle $\ensuremath{\theta}$, the actual direction of the external fields can be crucial to the PHE, dependent on the specific properties of a material. As a result, the planar Hall conductivity can be nonvanishing even for parallel construction of the applied electric and magnetic fields. Our findings are based on but not limited to the FMI/TI heterostructure, which would be helpful to understand the emergent PHEs in topological materials.
Found 67
By date By citations
American Physical Society (APS)
Photon-modulated linear and nonlinear anomalous Hall effects in type-II semi-Dirac semimetals
Chen J., Yang Y., Zhou Y., Wu Y., Duan H., Deng M., Wang R.
Physical Review B scimago Q1 wos Q2
2022-02-15 citations by CoLab: 9 Abstract  
Two-dimensional semi-Dirac materials, with quadratic dispersion in one direction and linear dispersion in the orthogonal direction, provide a route to formation of the Chern-insulating states in solids. Within the framework of the Floquet theory, we investigate the photon-modulated linear and nonlinear anomalous Hall effect (AHE) in type-II semi-Dirac semimetals and find that rich topological phases, as well as interesting phenomena related to the topological transitions, can be realized and manipulated by circularly polarized light (CPL). By tuning the CPL parameters, we can control the local inverted gaps independently and switch the system between different topological phases optionally. We also demonstrate that, when the Fermi level locates outside the gap, the Drude component of the conductivity can contribute to the AHE as well, because of the anisotropy of the electronic structure. Besides, the nonlinear Hall effect due to the Berry curvature dipole can be observable when the inversion symmetry between opposite valleys is broken. Our findings are helpful to understand the topological properties of the emergent type-II semi-Dirac semimetals.
American Physical Society (APS)
Nontopological chiral chemical potential due to the Zeeman field in magnetic Weyl semimetals
Lei Y., Zhou Y., Duan H., Deng M., Lu Z., Wang R.
Physical Review B scimago Q1 wos Q2
2021-09-27 citations by CoLab: 7 Abstract  
As condensed-matter manifestations of the chiral anomaly, the coexistence of positive longitudinal magnetoconductivity (LMC) and the planar Hall effect (PHE) is regarded as a characteristic transport signal for the Weyl semimetal (WSM) phase. By including a finite Newtonian mass into the general linearized WSM model, we derive an analytical expression for the chiral chemical potential, which includes a topological term of the chiral anomaly and a nontopological term. The nontopological term stems from the Zeeman-field-induced tilt of the Weyl cones, which breaks the symmetry of the fermion filling between the Weyl valleys of opposite chiralities and further leads to a chiral chemical potential $\ensuremath{\propto}\mathbit{E}\ifmmode\cdot\else\textperiodcentered\fi{}\mathbit{B}$, much as the effect of the chiral anomaly. We demonstrate that the resulting LMC is positive and can coexist with the PHE without invoking the mechanism of the chiral anomaly. Hence, the chiral chemical potential might not be exclusively respected to the chiral anomaly. Experimentally, one can distinguish the chiral anomaly from the proposed tilt mechanism by inspecting the dependence of magnetoconductivity on the Fermi energy.
American Physical Society (APS)
Experimental perspective on three-dimensional topological semimetals
Lv B. ., Qian T., Ding H.
Reviews of Modern Physics scimago Q1 wos Q1
2021-04-26 citations by CoLab: 387 Abstract  
A confluence of precise theoretical predictions shows that carefully fabricated three-dimensional (3D) semimetals can host a variety of exotic phases dominated by topological constraints. This experimental review of 3D topological semimetals addresses the role that electronic structure and associated band crossings play in validating Dirac and Weyl fermion descriptions that have analogies with elementary particles in quantum field theory. The importance of Fermi arcs, nodal geometries, symmetry, spin-orbit coupling, and dimensionality is highlighted. A list of confirmed 3D topological semimetals is presented with suggestions for future research and applications.
American Physical Society (APS)
Angular dependence of magnetoresistance and planar Hall effect in semimetals in strong magnetic fields
Yamada A., Fuseya Y.
Physical Review B scimago Q1 wos Q2
2021-03-23 citations by CoLab: 6 Abstract  
The semiclassical transport theory is especially powerful for investigating galvanomagnetic effects. Generally, the semiclassical theory is applicable only in weak fields because it does not consider Landau quantization. Herein, we extend the conventional semiclassical theory by considering Landau quantization through the field dependence of carrier density in semimetals. The extended semiclassical theory is applicable even in strong fields, where Landau quantization is noticeable. Using this new approach, we explain the qualitative change in the angular dependence of transverse magnetoresistance (TMR), anisotropic magnetoresistance (AMR), and planar Hall effect (PHE) in bismuth with an increase in the magnetic field. This unveils the puzzle of nontrivial field-induced changes in TMR, AMR, and PHE observed recently in semimetal bismuth.
American Physical Society (APS)
Anomalous planar Hall effect in two-dimensional trigonal crystals
Battilomo R., Scopigno N., Ortix C.
Physical Review Research scimago Q1 wos Q1 Open Access
2021-01-19 citations by CoLab: 39 PDF Abstract  
The planar Hall effect (PHE) is the appearance of an in-plane transverse voltage in the presence of coplanar electric and magnetic fields. Its hallmark is a characteristic $\pi$-periodic, i.e. even under a magnetic field reversal, angular dependence with the transverse voltage that exactly vanishes when the electric and magnetic fields are aligned. Here we demonstrate that in two-dimensional trigonal crystals Zeeman-induced non-trivial Berry curvature effects yield a previously unknown anomalous PHE that is odd in the magnetic field and independent of the relative angle with the driving electric field. We further show that when an additional mirror symmetry forces the transverse voltage to vanish in the linear response regime, the anomalous PHE can occur as a second-order response at both zero and twice the frequency of the applied electric field. We demonstrate that this non-linear PHE possesses an antisymmetric quantum contribution that originates from a Zeeman-induced Berry curvature dipole.
American Physical Society (APS)
Chiral-anomaly-induced angular narrowing of the positive longitudinal magnetoconductivity in Weyl semimetals
Deng M., Ba J., Ma R., Luo W., Wang R., Sheng L., Xing D.Y.
Physical Review Research scimago Q1 wos Q1 Open Access
2020-09-01 citations by CoLab: 10 PDF Abstract  
The authors develop a method for magnetotransport study in finite-size systems and use it to evaluate magnetoconductivity of a disordered Weyl semimetal for both the ballistic and diffusive regimes.
American Physical Society (APS)
Symmetrized decomposition of the Kubo-Bastin formula
Bonbien V., Manchon A.
Physical Review B scimago Q1 wos Q2
2020-08-06 citations by CoLab: 27 Abstract  
The Smrcka-Streda version of Kubo's linear response formula is widely used in the literature to compute non-equilibrium transport properties of heterostructures. It is particularly useful for the evaluation of intrinsic transport properties associated with the Berry curvature of the Bloch states, such as anomalous and spin Hall currents as well as the damping-like component of the spin-orbit torque. Here, we demonstrate in a very general way that the widely used decomposition of the Kubo-Bastin formula introduced by Smrcka and Streda contains an overlap, which has lead to widespread confusion in the literature regarding the Fermi surface and Fermi sea contributions. To remedy this pathology, we propose a new decomposition of the Kubo-Bastin formula based on the permutation properties of the correlation function and derive a new set of formulas, without an overlap, that provides direct access to the transport effects of interest. We apply these new formulas to selected cases and demonstrate that the Fermi sea and Fermi surface contributions can be uniquely addressed with our symmetrized approach.
American Association for the Advancement of Science (AAAS)
Giant, unconventional anomalous Hall effect in the metallic frustrated magnet candidate, KV 3 Sb 5
Yang S., Wang Y., Ortiz B.R., Liu D., Gayles J., Derunova E., Gonzalez-Hernandez R., Šmejkal L., Chen Y., Parkin S.S., Wilson S.D., Toberer E.S., McQueen T., Ali M.N.
Science advances scimago Q1 wos Q1 Open Access
2020-07-31 citations by CoLab: 383 PDF Abstract  
The anomalous Hall effect soars when Dirac quasiparticles meet frustrated magnetism.
American Physical Society (APS)
Large planar Hall effect in bismuth thin films
Yang S., Chang K., Parkin S.S.
Physical Review Research scimago Q1 wos Q1 Open Access
2020-05-06 citations by CoLab: 21 PDF Abstract  
The authors show that a large planar Hall effect can originate from highly anisotropic electronic structures and ultrahigh carrier mobilities by studying the planar Hall effect along different crystal directions. The differences and similarities of planar Hall effects induced by topologically trivial and nontrivial reasons are compared
Springer Nature
Planar Hall effect and anisotropic magnetoresistance in polar-polar interface of LaVO3-KTaO3 with strong spin-orbit coupling
Wadehra N., Tomar R., Varma R.M., Gopal R.K., Singh Y., Dattagupta S., Chakraverty S.
Nature Communications scimago Q1 wos Q1 Open Access
2020-02-13 citations by CoLab: 97 PDF Abstract  
Among the perovskite oxide family, KTaO3 (KTO) has recently attracted considerable interest as a possible system for the realization of the Rashba effect. In this work, we report a novel conducting interface by placing KTO with another insulator, LaVO3 (LVO) and report planar Hall effect (PHE) and anisotropic magnetoresistance (AMR) measurements. This interface exhibits a signature of strong spin-orbit coupling. Our experimental observations of two fold AMR and PHE at low magnetic fields (B) is similar to those obtained for topological systems and can be intuitively understood using a phenomenological theory for a Rashba spin-split system. Our experimental data show a B2 dependence of AMR and PHE at low magnetic fields that could also be explained based on our model. At high fields (~8 T), we see a two fold to four fold transition in the AMR that could not be explained using only Rashba spin-split energy spectra. Two dimensional electron gas (2DEG) at oxide interfaces is promising in modern electronic devices. Here, Wadehra et al. realize 2DEG at a novel interface composed of LaVO3 and KTaO3, where strong spin-orbit coupling and relativistic nature of the electrons in the 2DEG, leading to anisotropic magnetoresistance and planar Hall effect.
American Physical Society (APS)
Origin of planar Hall effect on the surface of topological insulators: Tilt of Dirac cone by an in-plane magnetic field
Zheng S., Duan H., Wang J., Li J., Deng M., Wang R.
Physical Review B scimago Q1 wos Q2
2020-01-21 citations by CoLab: 53 Abstract  
Recently, a novel planar Hall effect (PHE), which results from the resistivity anisotropy induced by an in-plane magnetic field, was discovered on the surface of topological insulators (TIs). While the PHE phenomenon in Weyl/Dirac semimetals is understood as a consequence of the chiral anomaly, the origin of the PHE in TIs, however, remains unclear theoretically. Several theories and experiments have ascribed the appearance of the PHE to the anisotropic backscattering induced by magnetic disorders, where the magnetization of the scatterers is indispensable. Instead, we here show that the anisotropic backscattering can arise from the tilt of the Dirac cone by an in-plane magnetic field, which emerges if nonlinear momentum terms are included, irrelevant to the magnetic nature of the scatterers. We further find that a relatively strong scalar potential can further enhance the PHE magnitude significantly, and the resulting impurity resonant state together with the tilted cone can produce the double-peak structure of the PHE and the sign change of the anisotropic magnetoresistivity. Our theory provides another perspective to understand the nontopological origin of the experimentally observed PHE in topological materials.
Springer Nature
Antisymmetric linear magnetoresistance and the planar Hall effect
Wang Y., Lee P.A., Silevitch D.M., Gomez F., Cooper S.E., Ren Y., Yan J.-., Mandrus D., Rosenbaum T.F., Feng Y.
Nature Communications scimago Q1 wos Q1 Open Access
2020-01-10 citations by CoLab: 26 PDF Abstract  
The phenomena of antisymmetric magnetoresistance and the planar Hall effect are deeply entwined with ferromagnetism. The intrinsic magnetization of the ordered state permits these unusual and rarely observed manifestations of Onsager’s theorem when time reversal symmetry is broken at zero applied field. Here we study two classes of ferromagnetic materials, rare-earth magnets with high intrinsic coercivity and antiferromagnetic pyrochlores with strongly-pinned ferromagnetic domain walls, which both exhibit antisymmetric magnetoresistive behavior. By mapping out the peculiar angular variation of the antisymmetric galvanomagnetic response with respect to the relative alignments of the magnetization, magnetic field, and electrical current, we experimentally distinguish two distinct underlying microscopic mechanisms: namely, spin-dependent scattering of a Zeeman-shifted Fermi surface and anomalous electron velocities. Our work demonstrates that the anomalous electron velocity physics typically associated with the anomalous Hall effect is prevalent beyond the ρxy(Hz) channel, and should be understood as a part of the general galvanomagnetic behavior. Magnetoresitance (MR) is a tool to study electronic transport and spin order in metals. Here, the authors demonstrate two different microscopic origins of antisymmetric linear MR from both Zeeman-split Fermi surface and anomalous electron velocity.
American Physical Society (APS)
Unidirectional Seebeck effect in magnetic topological insulators
Yu X., Zhu Z., Su G.
Physical Review B scimago Q1 wos Q2
2019-11-18 citations by CoLab: 6 Abstract  
We theoretically investigate the temperature gradient-dependent or unidirectional Seebeck effect (USE) in a magnetic/ nonmagnetic topological insulator (TI) heterostructure with in-plane magnetization in terms of the semiclassical electron dynamics and Fermi golden rule. The USE has a quantum origin arising from the magnon asymmetric scattering of surface Dirac electrons on TI. We discuss the USE in the heterostructures, Cr$_{x}$(Bi$_{1-y}$Sb$_y$)$_{2-x}$Te$_{3}$/ (Bi$_{1-y}$Sb$_{y})_2$Te$_{3}$. The USE exhibits $\cos\phi$-dependence (measured from $y$-direction) on the orientation of magnetization. It's found that the sign of USE stays unchanged when the system is transferred from $p$-doping to $n$-doping. The USE shows on inverse-linearly temperature dependent at high temperature.
American Physical Society (APS)
Photon-Induced Weyl Half-Metal Phase and Spin Filter Effect from Topological Dirac Semimetals
Li X., Wang C., Deng M., Duan H., Fu P., Wang R., Sheng L., Xing D. .
Physical Review Letters scimago Q1 wos Q1 Open Access
2019-11-15 citations by CoLab: 36 Abstract  
Recently discovered Dirac semimetals (DSMs) with two Dirac nodes, such as Na$_{3}$Bi and Cd$_{2}$As$_{3}$, are regarded to carry the $\mathbb{Z}_{2}$ topological charge in addition to the chiral charge. Here, we study the Floquet phase transition of $\mathbb{Z}_{2}$ topological DSMs subjected to a beam of circularly polarized light. Due to the resulting interplay of the chiral and $\mathbb{Z}_{2}$ charges, the Weyl nodes are not only chirality-dependent but also spin-dependent, which constrains the behaviors in creation and annihilation of the Weyl nodes in pair. Interestingly, we find a novel phase: One spinband is in Weyl semimetal phase while the other spinband is in insulator phase, and we dub it Weyl half-metal (WHM) phase. We further study the spin-dependent transport in a Dirac-Weyl semimetal junction and find a spin filter effect as a fingerprint of existence of the WHM phase. The proposed spin filter effect, based on the WHM bulk band, is highly tunable in a broad parameter regime and robust against magnetic disorder, which is expected to overcome the shortcomings of the previously proposed spin filter based on the topological edge/surface states. Our results offer a unique opportunity to explore the potential applications of topological DSMs in spintronics.
Springer Nature
Double Andreev reflections at surface states of the topological insulators with hexagonal warping
Zhu C., Zheng S., Duan H., Deng M., Wang R.
Frontiers of Physics scimago Q1 wos Q1
2019-11-14 citations by CoLab: 6 Abstract  
We study the Andreev reflection (AR) at the interface of the topological insulator with hexagonal warping and superconductor junction. Due to the hexagonal warping effect, the double ARs are found in a certain range of the incident angle, where for one incident electron beam, two beams of holes are reflected back. Interestingly, both the beams of holes are reflected as retro-AR on the same side of the normal line of the interface but with different reflection angles, different from the previously reported double AR with one retro-AR and one specular-AR. The double reflections owing to the warping effect show the optics-like property of the Dirac fermion and can stimulate the double reflections of light in anisotropic crystals. In addition, we find that the double ARs are dependent on the hexagonal warping parameter nonmonotonically, and in an intermediate strength the double AR phenomenon is prominent, providing a possibility to explore the warping parameter of topological insulators.
Found 4
By date By citations
American Physical Society (APS)
Modulation of chiral anomaly and bilinear magnetoconductivity in Weyl semimetals by impurity resonance states
Hu M., Fang Z., Duan H., Yang M., Deng M., Wang R.
Physical Review B scimago Q1 wos Q2
2024-04-18 citations by CoLab: 1 Abstract  
The phenomenon of nonlinear transport has attracted tremendous interest within the condensed matter community. We present a theoretical framework for nonlinear transport based on the nonequilibrium retarded Green's function and examine the impact of disorder on nonlinear magnetotransport in Weyl semimetals (WSMs). It is demonstrated that bilinear magnetoconductivity can be induced in disordered WSMs by several mechanisms, including the impurity-induced tilt of the Weyl cones, Lorentz-force-induced normal orbital magnetic moment, and a chiral anomaly arising from the Berry-curvature-induced anomalous orbital magnetic moment. Additionally, we observe that the localization of Weyl fermions by impurity scattering will lead to resonant dips in both the chiral chemical potential and magnetoconductivity when the Fermi energy approaches the impurity resonance states. Our findings offer a theoretical proposition for modulating nonreciprocal transport in topological semimetals.
Springer Nature
Observation of giant room-temperature anisotropic magnetoresistance in the topological insulator β-Ag2Te
Ai W., Chen F., Liu Z., Yuan X., Zhang L., He Y., Dong X., Fu H., Luo F., Deng M., Wang R., Wu J.
Nature Communications scimago Q1 wos Q1 Open Access
2024-02-10 citations by CoLab: 7 PDF Abstract  
AbstractAchieving room-temperature high anisotropic magnetoresistance ratios is highly desirable for magnetic sensors with scaled supply voltages and high sensitivities. However, the ratios in heterojunction-free thin films are currently limited to only a few percent at room temperature. Here, we observe a high anisotropic magnetoresistance ratio of −39% and a giant planar Hall effect (520 μΩ⋅cm) at room temperature under 9 T in β-Ag2Te crystals grown by chemical vapor deposition. We propose a theoretical model of anisotropic scattering — induced by a Dirac cone tilt and modulated by intrinsic properties of effective mass and sound velocity — as a possible origin. Moreover, small-size angle sensors with a Wheatstone bridge configuration were fabricated using the synthesized β-Ag2Te crystals. The sensors exhibited high output response (240 mV/V), high angle sensitivity (4.2 mV/V/°) and small angle error (<1°). Our work translates the developments in topological insulators to a broader impact on practical applications such as high-field magnetic and angle sensors.
American Physical Society (APS)
Nonlinear planar Hall effect induced by interband transitions: Application to surface states of topological insulators
Ba J., Wang Y., Duan H., Deng M., Wang R.
Physical Review B scimago Q1 wos Q2
2023-12-11 citations by CoLab: 6 Abstract  
Motivated by recent experiments observing the nonlinear planar Hall effect (NPHE) in nonmagnetic topological materials, we employ the density matrix method to consider all the intraband and interband transitions. This gives a deeper insight for the different mechanisms of NPHE on the same footing beyond the semiclassical theory. Under broken time-reversal symmetry, besides the usual Berry curvature dipole (BCD) contribution, there exists the quantum metric (QM) induced NPHE, which includes the intrinsic and extrinsic components, and exists even within the band gap. This QM term extends the Berry-connection polarizability (BCP) theory which captures only the intrinsic contribution and cannot be applied to the case with finite scattering and nonzero frequency. Moreover, we reveal that the underlying physics of BCP originates essentially from the combination of three interband transitions (injection, shift, and anomalous), very differently from the BCD which is only contributed by an anomalous mechanism. We compare different mechanisms by calculating the NPHE on the surface states of topological insulators and find that the NPHE from different mechanisms exhibits different dependence on the in-plane magnetic field and the chemical potential. Our theory provides an alternative perspective to understand the complicated lineshapes of the NPHE observed near the Dirac point.
Acta Physica Sinica, Chinese Physical Society and Institute of Physics, Chinese Academy of Sciences
Planar Hall effect in topological materials
Ba Jia-Yan, Chen Fu-Yang, Duan Hou-Jian, Deng Ming-Xun, Wang Rui-Qiang
Acta Physica Sinica scimago Q4 wos Q3
2023-07-18 citations by CoLab: 0 Abstract  
The planar Hall effect (PHE) is one of the hot topics in the field of condensed matter physics. In recent years, the PHE has received great attention especially in topological materials such as topological insulators and topological semimetals, and great progress has been made. Different from the ordinary Hall effect, the transverse current, magnetic field, and electric field in the PHE can appear in the same plane and cannot be explained by the Lorentz force, which largely depends on the anisotropy of the magnetoresistivity. With the development of nonlinear effect in topological materials, the PHE has been extended to a nonlinear regime, which has also been extensively studied in experiments. To explain the linear and nonlinear PHE observed in experiments, various microscopic mechanisms have been proposed theoretically. In this review, we introduce the research progress about the linear and nonlinear PHEs of topological materials in theory and experiment aspects, and deeply analyze the various extrinsic and intrinsic mechanisms leading to the linear and nonlinear PHEs. The physical mechanisms of the linear PHE mainly include the tilt of Dirac cone, magnon scattering, chiral anomaly (or chiral-anomaly-like), shift effect, and Berry curvature, whereas ones of the nonlinear PHE mainly include the nonlinear Drude term, shift effect, Berry curvature dipole, magnon scattering, chiral anomaly, and Berry-connection polarizability. In addition, we propose the related problems to be solved and the future development directions.

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Physical Review B
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American Physical Society (APS)
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