Dielectrics and semiconductors benefit from negligible resistive losses. This advantage allows excitation at large light intensities for significant concentration of light at the nanoscale, which is not limited to interfaces. Such nanostructures have multipolar characteristics of both electric and magnetic resonant modes that could aid in the engineering of light behaviour at the nanoscale. This is because metasurfaces can offer a diverse range of applications, including sensing and optical tuning, dispersion engineering and polarization manipulation [ 14 ].
- Nanoimprinted deterministic aperiodic nanostructures for tailored light matter interactions;
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Recently, it has been demonstrated that light—matter interactions at the nanoscale can even be induced via sub-nanometer materials [ 15 — 16 ], for example, graphene [ 17 ]. The interaction of graphene with electromagnetic radiation is fascinating due to the two-dimensional confinement of electrons and the exceptional band structure of graphene.
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Graphene has a simple band structure with zero band gap, but its optical response is nontrivial. Subsequently, other two-dimensional 2D materials, such as transition-metal dichalcogenides TMDCs or hexagonal boron nitride hBN [ 10 ] have also emerged as interesting platforms for nanophotonics. TMDCs, with their intrinsically broken inversion symmetry in crystal structure, have shown many advanced optical properties with potential applications such as in valleytronics. On the other hand, hBN has promising hyperbolic properties as well as the ability to host a range of single photon emitters SPEs for quantum photonic applications.
In summary, the field of photonics is ever growing and the life of people will be greatly influenced by the developments in this area. This Thematic Series can guide readers in understanding the physics of light matter—interaction with various kinds of nanostructures, including metallic plasmonic , dielectric and semiconductor, 2D, as well as hybrid nanostructures [ 18 ].
Light-matter interactions of two-dimensional materials and the coupled nanostructures
Meanwhile, readers can become more familiar with the cutting edge advances in this respect. This article is part of the Thematic Series "Light—Matter interactions on the nanoscale". National Center for Biotechnology Information , U. Journal List Beilstein J Nanotechnol v. Beilstein J Nanotechnol. Published online Aug Mohsen Rahmani 1 and Chennupati Jagadish 1.
Thomas Schimmel, Editor-in-Chief.
Light-matter interactions in Semiconductor Nanostructures
Author information Article notes Copyright and License information Disclaimer. Corresponding author. Mohsen Rahmani: ua. Received Jul 7; Accepted Jul Keywords: light-matter interactions, nano-optics, nanophotonics, plasmonics. Please note that the reuse, redistribution and reproduction in particular requires that the authors and source are credited.
References 1. Mokkapati S, Jagadish C.
Mater Today. Appl Phys A: Solids Surf. This hybrid structure has excellent stability in a reactive environment sulfur and at elevated temperatures ca. As a service to our authors and readers, this journal provides supporting information supplied by the authors.
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Please review our Terms and Conditions of Use and check box below to share full-text version of article. Abstract Graphene—plasmonic metal nanostructures have great potential as optical metamaterials with strong light—matter interactions for applications in energy harvesting, biochemical sensing, and plasmonics. Citing Literature.