Polaritonic Vortices with a Half-Integer Charge

Lin Xiong; Yutao Li; Dorri Halbertal; Michael Sammon; Zhiyuan Sun; Song Liu; James H. Edgar; Tony Low; Michael M. Fogler; Cory R. Dean; Andrew J. Millis; D. N. Basov

doi:10.1021/acs.nanolett.1c03175

Polaritonic Vortices with a Half-Integer Charge

Lin Xiong, Yutao Li, Dorri Halbertal, Michael Sammon, Zhiyuan Sun, Song Liu, James H. Edgar, Tony Low, Michael M. Fogler, Cory R. Dean, Andrew J. Millis, D. N. Basov

Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Topological spin textures are field arrangements that cannot be continuously deformed to a fully polarized state. In particular, merons are topological textures characterized by half-integer topological charge ±1/2 and vortex-like swirling patterns at large distances. Merons have been studied previously in the context of cosmology, fluid dynamics, condensed matter physics and plasmonics. Here, we visualized optical spin angular momentum of phonon polaritons that resembles nanoscale meron spin textures. Phonon polaritons, hybrids of infrared photons and phonons in hexagonal boron nitride, were excited by circularly polarized light incident on a ring-shaped antenna and imaged using infrared near-field techniques. The polariton field reveals a half-integer topological charge determined by the handedness of the incident beam. Our phonon polaritonic platform opens up new pathways to create, control, and visualize topological textures.

Original language	English (US)
Pages (from-to)	9256-9261
Number of pages	6
Journal	Nano letters
Volume	21
Issue number	21
DOIs	https://doi.org/10.1021/acs.nanolett.1c03175
State	Published - Nov 10 2021

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society.

Keywords

meron
near-field microscopy
optical vortex
phonon polariton
topology

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AU - Xiong, Lin

AU - Li, Yutao

AU - Halbertal, Dorri

AU - Sammon, Michael

AU - Sun, Zhiyuan

AU - Liu, Song

AU - Edgar, James H.

AU - Low, Tony

AU - Fogler, Michael M.

AU - Dean, Cory R.

AU - Millis, Andrew J.

AU - Basov, D. N.

PY - 2021/11/10

Y1 - 2021/11/10

N2 - Topological spin textures are field arrangements that cannot be continuously deformed to a fully polarized state. In particular, merons are topological textures characterized by half-integer topological charge ±1/2 and vortex-like swirling patterns at large distances. Merons have been studied previously in the context of cosmology, fluid dynamics, condensed matter physics and plasmonics. Here, we visualized optical spin angular momentum of phonon polaritons that resembles nanoscale meron spin textures. Phonon polaritons, hybrids of infrared photons and phonons in hexagonal boron nitride, were excited by circularly polarized light incident on a ring-shaped antenna and imaged using infrared near-field techniques. The polariton field reveals a half-integer topological charge determined by the handedness of the incident beam. Our phonon polaritonic platform opens up new pathways to create, control, and visualize topological textures.

AB - Topological spin textures are field arrangements that cannot be continuously deformed to a fully polarized state. In particular, merons are topological textures characterized by half-integer topological charge ±1/2 and vortex-like swirling patterns at large distances. Merons have been studied previously in the context of cosmology, fluid dynamics, condensed matter physics and plasmonics. Here, we visualized optical spin angular momentum of phonon polaritons that resembles nanoscale meron spin textures. Phonon polaritons, hybrids of infrared photons and phonons in hexagonal boron nitride, were excited by circularly polarized light incident on a ring-shaped antenna and imaged using infrared near-field techniques. The polariton field reveals a half-integer topological charge determined by the handedness of the incident beam. Our phonon polaritonic platform opens up new pathways to create, control, and visualize topological textures.

KW - meron

KW - near-field microscopy

KW - optical vortex

KW - phonon polariton

KW - topology

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Polaritonic Vortices with a Half-Integer Charge

Abstract

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Keywords

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