Hai Li scite author profile

Hai Li

4Publications

29Citation Statements Received

295Citation Statements Given

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192

288

Affiliations

Hunan Normal University, University of Houston

Publications

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Thermal transport in topological-insulator-based superconducting hybrid structures with mixed singlet and triplet pairing states

Zhao²

2017

J. Phys.: Condens. Matter

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In the framework of the Bogoliubov-de Gennes equation, we investigate the thermal transport properties in topological-insulator-based superconducting hybrid structures with mixed spin-singlet and spin-triplet pairing states, and emphasize the different manifestations of the spin-singlet and spin-triplet pairing states in the thermal transport signatures. It is revealed that the temperature-dependent differential thermal conductance strongly depends on the components of the pairing state, and the negative differential thermal conductance only occurs in the spin-singlet pairing state dominated regime. It is also found that the thermal conductance is profoundly sensitive to the components of the pairing state. In the spin-singlet pairing state controlled regime, the thermal conductance obviously oscillates with the phase difference and junction length. With increasing the proportion of the spin-triplet pairing state, the oscillating characteristic of the thermal conductance fades out distinctly. These results suggest an alternative route for distinguishing the components of pairing states in topological-insulator-based superconducting hybrid structures.

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Nonlocal transport in superconducting heterostructures based on Weyl semimetals

Ouyang

2019

Phys. Rev. B

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Magnetotransport in magnetic junctions based on tilted Weyl semimetals

Mei

Chen

2021

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We theoretically investigate the magnetotransport properties in magnetic junctions based on tilted Weyl semimetals and concentrate on the manifestations of the tilted effect in the differential conductance. Since the projection of the Fermi surface normal to the current direction can be enlarged by the tilted effect, the differential conductance is enhanced by increasing the tilting parameter. Moreover, due to the helical textures of Weyl fermions, the enhancement of differential conductance is robust against interfacial imperfections.

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Orientation-dependent crossover from retro to specular Andreev reflections in semi-Dirac materials

Ouyang

2022

New J. Phys.

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In the framework of Bogoliubov-de Gennes equation, we theoretically study the Andreev reflection in normal-superconducting junctions based on semi-Dirac materials. Owing to the intrinsic anisotropy of semi-Dirac materials, the configuration of Andreev reflection and the differential conductance are strongly orientation-dependent. For the transport along the linear dispersion direction, the differential conductance exhibits a clear crossover from retro Andreev reflection to specular Andreev reflection with an increasing bias-voltage, and the differential conductance oscillates without a decaying profile when the interfacial barrier strength increases. However, for the transport along the quadratic dispersion direction, the boundary between the retro Andreev reflection and specular Andreev reflection is ambiguous, and the differential conductance decays with increasing the momentum mismatch or the interfacial barrier strength. We illustrate the pseudo-spin textures to reveal the underling physics behind the anisotropic coherent transport properties. These results enrich the understanding of the superconducting coherent transport in semi-Dirac materials.

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Hai Li

Thermal transport in topological-insulator-based superconducting hybrid structures with mixed singlet and triplet pairing states

Nonlocal transport in superconducting heterostructures based on Weyl semimetals

Magnetotransport in magnetic junctions based on tilted Weyl semimetals

Orientation-dependent crossover from retro to specular Andreev reflections in semi-Dirac materials

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