Nature Search

Transition metal dichalcogenide nanodisks as high-index dielectric Mie nanoresonators

In individual tungsten diselenide nanodisks, excitonic and anapole modes can strongly couple to form a polariton.

Ruggero Verre
Denis G. Baranov
Timur Shegai
Research06 May 2019
Nature Nanotechnology

Volume: 14, P: 679-683
Probing optical anapoles with fast electron beams

Optical anapoles in nanoresonators result in strong suppression of the electromagnetic radiation, which is challenging to detect in ideal settings. Here, the authors show that fast electrons are a powerful tool to circumvent this challenge due to their ability to access dark modes.

Carlos Maciel-Escudero
Andrew B. Yankovich
Timur O. Shegai
ResearchOpen Access20 Dec 2023
Nature Communications

Volume: 14, P: 1-11
Tunable self-assembled Casimir microcavities and polaritons

Gold nanoflake pairs form by self-assembly in an aqueous ligand solution and offer stable and tunable microcavities by virtue of equilibrium between attractive Casimir forces and repulsive electrostatic forces.

Battulga Munkhbat
Adriana Canales
Timur O. Shegai
Research08 Sept 2021
Nature

Volume: 597, P: 214-219
Ultrastrong coupling between nanoparticle plasmons and cavity photons at ambient conditions

Achieving ultrastrong coupling requires demanding experimental conditions such as cryogenic temperatures, strong magnetic fields, and high vacuum. Here, the authors use plasmon-microcavity polaritons to achieve ultrastrong coupling at ambient conditions and without the use of magnetic fields.

Denis G. Baranov
Battulga Munkhbat
Timur Shegai
ResearchOpen Access01 Jun 2020
Nature Communications

Volume: 11, P: 1-9
Transition metal dichalcogenide metamaterials with atomic precision

Here, the authors devise a scalable method, based on anisotropic wet etching, to fabricate hexagonally shaped transition metal dichalcogenide nanostructures with smooth edges, which may serve as metamaterials with tailored optical properties.

Battulga Munkhbat
Andrew B. Yankovich
Timur O. Shegai
ResearchOpen Access14 Sept 2020
Nature Communications

Volume: 11, P: 1-8
Tunable critical Casimir forces counteract Casimir–Lifshitz attraction

Casimir forces are normally attractive and cause stiction, that is, static friction preventing surfaces in contact from starting to move. Now, a system exhibiting tunable repulsive critical Casimir forces, relevant for the development of micro- and nanodevices, is demonstrated.

Falko Schmidt
Agnese Callegari
Giovanni Volpe
ResearchOpen Access07 Nov 2022
Nature Physics

Volume: 19, P: 271-278
Photonics in Flatland: challenges and opportunities for nanophotonics with 2D semiconductors

Ali Azimi
Julien Barrier
Xavier Zambrana-Puyalto
ReviewsOpen Access03 Dec 2025
npj Nanophotonics

Volume: 2, P: 1-20
High-purity and stable single-photon emission in bilayer WSe₂ via phonon-assisted excitation

Phonon-assisted excitation has shown promise in quantum emitter platforms to control the emission properties, but it remains unexplored for transition metal dichalcogenide quantum emitters. This study reveals that phonon-assisted excitation significantly enhances the single-photon emission properties of bilayer WSe₂ quantum emitters, improving spectral diffusion and emission purity.

Claudia Piccinini
Athanasios Paralikis
Battulga Munkhbat
ResearchOpen Access14 Apr 2025
Communications Physics

Volume: 8, P: 1-11
Tailoring polarization in WSe₂ quantum emitters through deterministic strain engineering

Athanasios Paralikis
Claudia Piccinini
Battulga Munkhbat
ResearchOpen Access11 Sept 2024
npj 2D Materials and Applications

Volume: 8, P: 1-8

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