Direct observation of photonic Landau levels and helical edge states in strained honeycomb lattices

Omar Jamadi; Elena Rozas; Grazia Salerno; Marijana Milićević; Tomoki Ozawa; Isabelle Sagnes; Aristide Lemaître; Luc Le Gratiet; Abdelmounaim Harouri; Iacopo Carusotto; Jacqueline Bloch; Alberto Amo

doi:10.1038/s41377-020-00377-6

Direct observation of photonic Landau levels and helical edge states in strained honeycomb lattices

Omar Jamadi
, Elena Rozas
, Grazia Salerno
, Marijana Milićević
, Tomoki Ozawa
, Isabelle Sagnes
, Aristide Lemaître
, Luc Le Gratiet
, Abdelmounaim Harouri
, Iacopo Carusotto
, Jacqueline Bloch
, Alberto Amo

Université de Lille
Campus Universidad Autónoma de Madrid
Université Libre de Bruxelles
Université Paris-Saclay
The Institute of Physical and Chemical Research (RIKEN)
Università di Trento

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

Abstract

We report the realization of a synthetic magnetic field for photons and polaritons in a honeycomb lattice of coupled semiconductor micropillars. A strong synthetic field is induced in both the s and p orbital bands by engineering a uniaxial hopping gradient in the lattice, giving rise to the formation of Landau levels at the Dirac points. We provide direct evidence of the sublattice symmetry breaking of the lowest-order Landau level wavefunction, a distinctive feature of synthetic magnetic fields. Our realization implements helical edge states in the gap between n = 0 and n = ±1 Landau levels, experimentally demonstrating a novel way of engineering propagating edge states in photonic lattices. In light of recent advances in the enhancement of polariton–polariton nonlinearities, the Landau levels reported here are promising for the study of the interplay between pseudomagnetism and interactions in a photonic system.

Original language	English
Article number	144
Journal	Light: Science and Applications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41377-020-00377-6
Publication status	Published - 1 Dec 2020
Externally published	Yes

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title = "Direct observation of photonic Landau levels and helical edge states in strained honeycomb lattices",

abstract = "We report the realization of a synthetic magnetic field for photons and polaritons in a honeycomb lattice of coupled semiconductor micropillars. A strong synthetic field is induced in both the s and p orbital bands by engineering a uniaxial hopping gradient in the lattice, giving rise to the formation of Landau levels at the Dirac points. We provide direct evidence of the sublattice symmetry breaking of the lowest-order Landau level wavefunction, a distinctive feature of synthetic magnetic fields. Our realization implements helical edge states in the gap between n = 0 and n = ±1 Landau levels, experimentally demonstrating a novel way of engineering propagating edge states in photonic lattices. In light of recent advances in the enhancement of polariton–polariton nonlinearities, the Landau levels reported here are promising for the study of the interplay between pseudomagnetism and interactions in a photonic system.",

author = "Omar Jamadi and Elena Rozas and Grazia Salerno and Marijana Mili{\'c}evi{\'c} and Tomoki Ozawa and Isabelle Sagnes and Aristide Lema{\^i}tre and \{Le Gratiet\}, Luc and Abdelmounaim Harouri and Iacopo Carusotto and Jacqueline Bloch and Alberto Amo",

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doi = "10.1038/s41377-020-00377-6",

language = "English",

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TY - JOUR

T1 - Direct observation of photonic Landau levels and helical edge states in strained honeycomb lattices

AU - Jamadi, Omar

AU - Rozas, Elena

AU - Salerno, Grazia

AU - Milićević, Marijana

AU - Ozawa, Tomoki

AU - Sagnes, Isabelle

AU - Lemaître, Aristide

AU - Le Gratiet, Luc

AU - Harouri, Abdelmounaim

AU - Carusotto, Iacopo

AU - Bloch, Jacqueline

AU - Amo, Alberto

PY - 2020/12/1

Y1 - 2020/12/1

N2 - We report the realization of a synthetic magnetic field for photons and polaritons in a honeycomb lattice of coupled semiconductor micropillars. A strong synthetic field is induced in both the s and p orbital bands by engineering a uniaxial hopping gradient in the lattice, giving rise to the formation of Landau levels at the Dirac points. We provide direct evidence of the sublattice symmetry breaking of the lowest-order Landau level wavefunction, a distinctive feature of synthetic magnetic fields. Our realization implements helical edge states in the gap between n = 0 and n = ±1 Landau levels, experimentally demonstrating a novel way of engineering propagating edge states in photonic lattices. In light of recent advances in the enhancement of polariton–polariton nonlinearities, the Landau levels reported here are promising for the study of the interplay between pseudomagnetism and interactions in a photonic system.

AB - We report the realization of a synthetic magnetic field for photons and polaritons in a honeycomb lattice of coupled semiconductor micropillars. A strong synthetic field is induced in both the s and p orbital bands by engineering a uniaxial hopping gradient in the lattice, giving rise to the formation of Landau levels at the Dirac points. We provide direct evidence of the sublattice symmetry breaking of the lowest-order Landau level wavefunction, a distinctive feature of synthetic magnetic fields. Our realization implements helical edge states in the gap between n = 0 and n = ±1 Landau levels, experimentally demonstrating a novel way of engineering propagating edge states in photonic lattices. In light of recent advances in the enhancement of polariton–polariton nonlinearities, the Landau levels reported here are promising for the study of the interplay between pseudomagnetism and interactions in a photonic system.

UR - https://www.scopus.com/pages/publications/85089568711

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DO - 10.1038/s41377-020-00377-6

M3 - Article

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SN - 2095-5545

VL - 9

JO - Light: Science and Applications

JF - Light: Science and Applications

IS - 1

M1 - 144

ER -

Direct observation of photonic Landau levels and helical edge states in strained honeycomb lattices

Abstract

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