Nonlinear actuation of micromechanical Casimir oscillators with topological insulator materials toward chaotic motion: Sensitivity on magnetization and dielectric properties

Tajik, Fatemeh; Allameh, N.; Masoudi, A. A.; Palasantzas, G.

doi:10.1063/5.0100542

Cited by 3 publications

(1 citation statement)

References 38 publications

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“…Magnetic topological insulators (MTIs) attract a great deal of attention nowadays [ 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 ] as their unique properties could find applications in dissipationless topological electronics [ 10 ], random-access memories [ 11 ], topological quantum computations [ 12 ], micro/nanoelectromechanical devices [ 13 , 14 ], and others. In particular, MTIs enable observation of such fundamental and practically-promising phenomena as quantum anomalous Hall [ 6 , 8 , 15 , 16 ] and topological magnetoelectric effects [ 15 , 17 , 18 ] (QAH and TME, respectively).…”

Section: Introductionmentioning

confidence: 99%

Superlattices of Gadolinium and Bismuth Based Thallium Dichalcogenides as Potential Magnetic Topological Insulators

et al. 2022

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Using relativistic spin-polarized density functional theory calculations we investigate magnetism, electronic structure and topology of the ternary thallium gadolinium dichalcogenides TlGdZ2 (Z= Se and Te) as well as superlattices on their basis. We find TlGdZ2 to have an antiferromagnetic exchange coupling both within and between the Gd layers, which leads to frustration and a complex magnetic structure. The electronic structure calculations reveal both TlGdSe2 and TlGdTe2 to be topologically trivial semiconductors. However, as we show further, a three-dimensional (3D) magnetic topological insulator (TI) state can potentially be achieved by constructing superlattices of the TlGdZ2/(TlBiZ2)n type, in which structural units of TlGdZ2 are alternated with those of the isomorphic TlBiZ2 compounds, known to be non-magnetic 3D TIs. Our results suggest a new approach for achieving 3D magnetic TI phases in such superlattices which is applicable to a large family of thallium rare-earth dichalcogenides and is expected to yield a fertile and tunable playground for exotic topological physics.

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Section: Introductionmentioning

confidence: 99%

Superlattices of Gadolinium and Bismuth Based Thallium Dichalcogenides as Potential Magnetic Topological Insulators

et al. 2022

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Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions

Tajik

Palasantzas

2023

Physics Letters A

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Casimir energy with perfect electromagnetic boundary conditions and duality: A field-theoretic approach

Dudal,

Gobeyn,

Oosthuyse

et al. 2024

Phys. Rev. D

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Using functional integral methods, we study the Casimir effect for the case of two infinite parallel plates in the QED vacuum, with (different) perfect electromagnetic boundary conditions applied to both plates. To enforce these boundary conditions, we add two Lagrange multiplier fields to the action. We subsequently recover the known Casimir energy in two ways: once directly from the path integral and once as the vacuum expectation value of the 00 component of the energy-momentum tensor. Comparing both methods, we show that the energy-momentum tensor must be modified and that it picks up boundary contributions as a consequence. We also discuss electromagnetic duality invariance of the theory and its interplay with the boundaries by generalizing the Deser-Teitelboim implementation of the duality transformation. Published by the American Physical Society 2024

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Nonlinear actuation of micromechanical Casimir oscillators with topological insulator materials toward chaotic motion: Sensitivity on magnetization and dielectric properties

Cited by 3 publications

References 38 publications

Superlattices of Gadolinium and Bismuth Based Thallium Dichalcogenides as Potential Magnetic Topological Insulators

Superlattices of Gadolinium and Bismuth Based Thallium Dichalcogenides as Potential Magnetic Topological Insulators

Sensitivity of actuation dynamics of Casimir oscillators on finite temperature with topological insulator materials: Response of repulsive vs attractive interactions

Casimir energy with perfect electromagnetic boundary conditions and duality: A field-theoretic approach

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