Crossover between weak antilocalization and weak localization in few-layer 
WTe2
: Role of electron-electron interactions

Abstract The unusual observation of the Kondo effect in the two-dimensional electron gas (2DEG) of magnetically undoped AlGaN/GaN heterostructures is reported. The temperature-dependent zero-field resistivity data exhibits an upturn below 120 K, while the standard low-temperature weak localization and then weak antilocalization behaviour is revealed at T → 0. Magnetic transport investigations of the system are performed in the temperature range of 0.1–300 K and at magnetic fields up to 8 T, applied perpendicularly to the 2DEG plane. The experimental data are analyzed in terms of the multichannel Kondo model for d _0 magnetic materials and weak localization theory taking into account the spin-orbit interaction.

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Resistivity minima in the disordered cluster glass intermetallic compound Dy5Pd2: influence of quantum interference effects

RSC Advances ◽

10.1039/c5ra14515e ◽

2015 ◽

Vol 5 (96) ◽

pp. 78406-78413 ◽

Cited By ~ 1

Author(s):

Tapas Paramanik ◽

I. Das

Keyword(s):

Intermetallic Compound ◽

Temperature Dependence ◽

Quantum Interference ◽

Phonon Scattering ◽

Weak Localization ◽

Interference Effects ◽

Resistance Minimum ◽

Electron Interactions

A resistance minimum in the temperature dependence of Dy5Pd2 has been interpreted in terms of contributions from magnetic and phonon scattering, electron–electron interactions and weak localization.

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The role of electron–electron interactions in liquids

The Journal of Chemical Physics ◽

10.1063/1.466444 ◽

1994 ◽

Vol 100 (4) ◽

pp. 3028-3038 ◽

Cited By ~ 2

Author(s):

Theresa C. Kavanaugh ◽

Richard M. Stratt

Keyword(s):

Electron Interactions

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Transport in serial spinful multiple-dot systems: The role of electron-electron interactions and coherences

Scientific Reports ◽

10.1038/srep22761 ◽

2016 ◽

Vol 6 (1) ◽

Cited By ~ 6

Author(s):

Bahareh Goldozian ◽

Fikeraddis A. Damtie ◽

Gediminas Kiršanskas ◽

Andreas Wacker

Keyword(s):

Electron Interactions

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Weak localization and electron-electron interactions in thin Pd and PdHx films

Solid State Communications ◽

10.1016/0038-1098(84)90240-0 ◽

1984 ◽

Vol 51 (2) ◽

pp. 85-88 ◽

Cited By ~ 16

Author(s):

L. Dumoulin ◽

H. Raffy ◽

P. Nedellec ◽

D.S. MacLachlan ◽

J.P. Burger

Keyword(s):

Weak Localization ◽

Electron Interactions

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Weak localization, electron-electron interactions, and Joule heating in the presence of a microwave electric field in thin metal films

Physical Review B ◽

10.1103/physrevb.43.1385 ◽

1991 ◽

Vol 43 (2) ◽

pp. 1385-1390 ◽

Cited By ~ 11

Author(s):

J. Liu ◽

N. Giordano

Keyword(s):

Electric Field ◽

Joule Heating ◽

Weak Localization ◽

Metal Films ◽

Thin Metal ◽

Thin Metal Films ◽

Electron Interactions

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Boosting proximity spin–orbit coupling in graphene/WSe2 heterostructures via hydrostatic pressure

npj 2D Materials and Applications ◽

10.1038/s41699-021-00262-9 ◽

2021 ◽

Vol 5 (1) ◽

Author(s):

Bálint Fülöp ◽

Albin Márffy ◽

Simon Zihlmann ◽

Martin Gmitra ◽

Endre Tóvári ◽

...

Keyword(s):

Hydrostatic Pressure ◽

Proximity Effect ◽

Weak Localization ◽

Interlayer Coupling ◽

Proximity Effects ◽

Orbit Coupling ◽

Spin Orbit Coupling ◽

Spin Orbit ◽

Weak Antilocalization ◽

Atomic Orbitals

AbstractVan der Waals heterostructures composed of multiple few layer crystals allow the engineering of novel materials with predefined properties. As an example, coupling graphene weakly to materials with large spin–orbit coupling (SOC) allows to engineer a sizeable SOC in graphene via proximity effects. The strength of the proximity effect depends on the overlap of the atomic orbitals, therefore, changing the interlayer distance via hydrostatic pressure can be utilized to enhance the interlayer coupling between the layers. In this work, we report measurements on a graphene/WSe2 heterostructure exposed to increasing hydrostatic pressure. A clear transition from weak localization to weak antilocalization is visible as the pressure increases, demonstrating the increase of induced SOC in graphene.

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