Scaling theory of a quantum ratchet

Hamamoto, Keita; Park, Takamori; Ishizuka, Hiroaki; Nagaosa, Naoto

doi:10.1103/physrevb.99.064307

Cited by 11 publications

(2 citation statements)

References 42 publications

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“…Thus, the NLC should be accompanied by a dissipative response. This is consistent with previous theories [40,41]. In contrast to the familiar linear conductivity, the Drude term is prohibited because it is even-order with respect to τ .…”

Section: Quantum Theory and Symmetry Analysissupporting

confidence: 92%

Nonlinear electric transport in odd-parity magnetic multipole systems: Application to Mn-based compounds

Watanabe,

Yanase

2020

Preprint

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Violation of parity symmetry gives rise to various physical phenomena such as nonlinear transport and cross-correlated responses. In particular, the nonlinear conductivity has been attracting a lot of attentions in spin-orbit coupled semiconductors, superconductors, topological materials, and so on. In this paper we present theoretical study of the nonlinear conductivity in odd-parity magnetic multipole ordered systems whose PT -symmetry is essentially distinct from the previously studied acentric systems. Combining microscopic formulation and symmetry analysis, we classify the nonlinear responses in the PT -symmetric systems as well as T -symmetric (non-magnetic) systems, and uncover nonlinear conductivity unique to the odd-parity magnetic multipole systems. A giant nonlinear Hall effect, nematicity-assisted dichroism and magnetically-induced Berry curvature dipole effect are proposed and demonstrated in a model for Mn-based magnets.

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Section: Quantum Theory and Symmetry Analysissupporting

confidence: 92%

Nonlinear electric transport in odd-parity magnetic multipole systems: Application to Mn-based compounds

Watanabe,

Yanase

2020

Preprint

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“…The details of the model can be found, for example, in Ref. [8] and the quoted papers therein. The important point in the present work is that the coupled differential equations are integrated in coordinate space with the correct asymptotic behavior of radial wave functions in respective (ℓ, j) channels for r → ∞.…”

Section: Model and Numerical Calculationsmentioning

confidence: 99%

Enhanced E1 transition between weakly-bound excited states in the nucleus Ne27

Hamamoto

2019

Phys. Rev. C

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Inspired by the recently-reported strong electric-dipole (E1) transition between the weaklybound first and second excited states, 3/2 − at 765 keV and 1/2 + at 885 keV, in the nucleus 27 10 Ne 17 , the E1 transition is estimated in a model by properly taking into account the effect of both deformation and weakly-bound neutrons. In addition to both the spin-parities, 1/2 + and 3/2 − , and observed nearly degenerate energies of the two excited states, the observed order of magnitude of the E1 transition strength between the two states is very naturally explained in the case that these two excited states are prolately deformed, in terms of the transitions between the halo components of the wave functions of the weakly-bound odd-neutrons, s 1/2 → p 3/2 and s 1/2 → p 1/2 , in addition to the large probability of the p 3/2 component in the weakly-bound neutron [330 1/2] orbit. The large probability is the result of the shell-structure unique in weakly-bound or resonant neutrons. PACS numbers:

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Nonreciprocal charge transport in topological superconductor candidate Bi2Te3/PdTe2 heterostructure

et al. 2022

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In a hybrid system of topological insulator (TI)/superconductor (SC), the proximity-induced topological superconductivity is expected to appear at the interface. Here we propose and demonstrate that a TI/SC hybrid Bi2Te3/PdTe2 heterostructure serves as a platform for exploring topological superconductivity with various features: all made of tellurium compounds, epitaxial growth, and a small charge transfer interface. In the Bi2Te3/PdTe2 heterostructure films, we observe large nonreciprocal charge transport near the superconducting transition temperature under a transverse in-plane magnetic field. The observation indicates the interplay between the topological surface state and superconductivity, suggesting that the Bi2Te3/PdTe2 heterostructure is a candidate for a topological superconductor. Also observed is an unexpected sign reversal of the nonreciprocal coefficient when the in-plane magnetic field is slightly tilted toward the out-of-plane direction. The analysis reveals that the sign reversal occurs with the change of dominant vortex type, that is, the change from spontaneous vortices to external-field induced ones.

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Scaling theory of a quantum ratchet

Cited by 11 publications

References 42 publications

Nonlinear electric transport in odd-parity magnetic multipole systems: Application to Mn-based compounds

Nonlinear electric transport in odd-parity magnetic multipole systems: Application to Mn-based compounds

Enhanced E1 transition between weakly-bound excited states in the nucleus Ne27

Nonreciprocal charge transport in topological superconductor candidate Bi2Te3/PdTe2 heterostructure

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