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Topological insulator laser: Experiments
by
Parto, Midya
, Christodoulides, Demetrios N.
, Wittek, Steffen
, Ren, Jinhan
, Bandres, Miguel A.
, Segev, Mordechai
, Harari, Gal
, Khajavikhan, Mercedeh
in
Acoustics
/ Cold atoms
/ Condensed matter physics
/ Couplers
/ Deformation
/ Dielectric properties
/ Electron transport
/ Energy gap
/ Fabrication
/ Gallium indium arsenide phosphide
/ Insulators
/ Laser arrays
/ Laser cavities
/ Lasers
/ Lasing
/ Light
/ Magnetic fields
/ Magnetic properties
/ Optical pumping
/ Optics
/ Photonics
/ Quantum entanglement
/ Quantum wells
/ Resonators
/ Robustness (mathematics)
/ Scattering
/ Topological insulators
/ Topology
2018
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Topological insulator laser: Experiments
by
Parto, Midya
, Christodoulides, Demetrios N.
, Wittek, Steffen
, Ren, Jinhan
, Bandres, Miguel A.
, Segev, Mordechai
, Harari, Gal
, Khajavikhan, Mercedeh
in
Acoustics
/ Cold atoms
/ Condensed matter physics
/ Couplers
/ Deformation
/ Dielectric properties
/ Electron transport
/ Energy gap
/ Fabrication
/ Gallium indium arsenide phosphide
/ Insulators
/ Laser arrays
/ Laser cavities
/ Lasers
/ Lasing
/ Light
/ Magnetic fields
/ Magnetic properties
/ Optical pumping
/ Optics
/ Photonics
/ Quantum entanglement
/ Quantum wells
/ Resonators
/ Robustness (mathematics)
/ Scattering
/ Topological insulators
/ Topology
2018
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Topological insulator laser: Experiments
by
Parto, Midya
, Christodoulides, Demetrios N.
, Wittek, Steffen
, Ren, Jinhan
, Bandres, Miguel A.
, Segev, Mordechai
, Harari, Gal
, Khajavikhan, Mercedeh
in
Acoustics
/ Cold atoms
/ Condensed matter physics
/ Couplers
/ Deformation
/ Dielectric properties
/ Electron transport
/ Energy gap
/ Fabrication
/ Gallium indium arsenide phosphide
/ Insulators
/ Laser arrays
/ Laser cavities
/ Lasers
/ Lasing
/ Light
/ Magnetic fields
/ Magnetic properties
/ Optical pumping
/ Optics
/ Photonics
/ Quantum entanglement
/ Quantum wells
/ Resonators
/ Robustness (mathematics)
/ Scattering
/ Topological insulators
/ Topology
2018
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Journal Article
Topological insulator laser: Experiments
2018
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Overview
Ideas based on topology, initially developed in mathematics to describe the properties of geometric space under deformations, are now finding application in materials, electronics, and optics. The main driver is topological protection, a property that provides stability to a system even in the presence of defects. Harari et al. outline a theoretical proposal that carries such ideas over to geometrically designed laser cavities. The lasing mode is confined to the topological edge state of the cavity structure. Bandres et al. implemented those ideas to fabricate a topological insulator laser with an array of ring resonators. The results demonstrate a powerful platform for developing new laser systems. Science , this issue p. eaar4003 , p. eaar4005 Lasing is observed in an edge mode of a designed optical topological insulator. Physical systems exhibiting topological invariants are naturally endowed with robustness against perturbations, as manifested in topological insulators—materials exhibiting robust electron transport, immune from scattering by defects and disorder. Recent years have witnessed intense efforts toward exploiting these phenomena in photonics. Here we demonstrate a nonmagnetic topological insulator laser system exhibiting topologically protected transport in the cavity. Its topological properties give rise to single-mode lasing, robustness against defects, and considerably higher slope efficiencies compared to the topologically trivial counterparts. We further exploit the properties of active topological platforms by assembling the system from S -chiral microresonators, enforcing predetermined unidirectional lasing without magnetic fields. This work paves the way toward active topological devices with exciting properties and functionalities.
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