Photonic topological insulators
Alexander B. Khanikaev,S. Hossein Mousavi,Wang-Kong Tse,Mehdi Kargarian,Allan H. MacDonald,Gennady Shvets +5 more
TLDR
It is shown that metacrystals-superlattices of metamaterials with judiciously designed properties-provide a platform for designing topologically non-trivial photonic states, similar to those identified for condensed-matter topological insulators.Abstract:
Recent progress in understanding the topological properties of condensed matter has led to the discovery of time-reversal-invariant topological insulators. A remarkable and useful property of these materials is that they support unidirectional spin-polarized propagation at their surfaces. Unfortunately topological insulators are rare among solid-state materials. Using suitably designed electromagnetic media (metamaterials) we theoretically demonstrate a photonic analogue of a topological insulator. We show that metacrystals-superlattices of metamaterials with judiciously designed properties-provide a platform for designing topologically non-trivial photonic states, similar to those that have been identified for condensed-matter topological insulators. The interfaces of the metacrystals support helical edge states that exhibit spin-polarized one-way propagation of photons, robust against disorder. Our results demonstrate the possibility of attaining one-way photon transport without application of external magnetic fields or breaking of time-reversal symmetry. Such spin-polarized one-way transport enables exotic spin-cloaked photon sources that do not obscure each other.read more
Citations
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Quantum gyroelectric effect: Photon spin-1 quantization in continuum topological bosonic phases
Todd Van Mechelen,Zubin Jacob +1 more
TL;DR: In this article, a complete electromagnetic continuum theory characterizing 2+1D topological bosons was developed, taking into account their intrinsic spin and orbital angular momentum degrees of freedom, showing that spatiotemporal dispersion captures the matter-mediated interactions between bosons and is a necessary ingredient for topological phases.
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Achieving nonreciprocal unidirectional single-photon quantum transport using the photonic Aharonov-Bohm effect.
TL;DR: It is shown that nonreciprocal unidirectional single-photon quantum transport can be achieved with the photonic Aharonov-Bohm effect and that the phase of the external coherent field provides a gauge potential for the photon states.
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Optical switching of topological phase in a perovskite polariton lattice.
TL;DR: In this article, a room temperature exciton polariton topological insulator in a perovskite zigzag lattice was shown to persist in the presence of onsite energy perturbations, showing strong immunity to disorder.
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Double Dirac cones in two-dimensional dielectric photonic crystals.
TL;DR: Using a perturbation method and group theory, it is demonstrated that the double cone is composed of two identical and overlapping Dirac cones with predictable linear slopes, and the linearity of the dispersion is guaranteed by the spatial symmetry of the Bloch eigenstates.
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Experimental demonstration of single-mode topological valley-Hall lasing at telecommunication wavelength controlled by the degree of asymmetry.
TL;DR: By controlling the degree of asymmetry (DoA) in a photonic crystal with broken inversion symmetry, single-mode lasing of valley-Hall ring cavities at telecommunication wavelength is reported, opening the door to novel optoelectronic devices and systems based on compact topological integrated circuits.
References
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Colloquium: Topological insulators
M. Z. Hasan,Charles L. Kane +1 more
TL;DR: In this paper, the theoretical foundation for topological insulators and superconductors is reviewed and recent experiments are described in which the signatures of topologically insulators have been observed.
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Xiao-Liang Qi,Shou-Cheng Zhang +1 more
TL;DR: Topological superconductors are new states of quantum matter which cannot be adiabatically connected to conventional insulators and semiconductors and are characterized by a full insulating gap in the bulk and gapless edge or surface states which are protected by time reversal symmetry.
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Negative Refraction Makes a Perfect Lens
TL;DR: The authors' simulations show that a version of the lens operating at the frequency of visible light can be realized in the form of a thin slab of silver, which resolves objects only a few nanometers across.
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The Electrodynamics of Substances with Simultaneously Negative Values of ∊ and μ
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Experimental Verification of a Negative Index of Refraction
TL;DR: These experiments directly confirm the predictions of Maxwell's equations that n is given by the negative square root ofɛ·μ for the frequencies where both the permittivity and the permeability are negative.