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Strain-Tunable Quantum Integrated Photonics.
Elshaari, Ali W; Büyüközer, Efe; Zadeh, Iman Esmaeil; Lettner, Thomas; Zhao, Peng; Schöll, Eva; Gyger, Samuel; Reimer, Michael E; Dalacu, Dan; Poole, Philip J; Jöns, Klaus D; Zwiller, Val.
Afiliação
  • Elshaari AW; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
  • Büyüközer E; Department of Mechanical and Process Engineering , ETH Zurich , CH - 8092 Zurich , Switzerland.
  • Zadeh IE; Optics Group , Delft University of Technology , Delft 2628 CJ , The Netherlands.
  • Lettner T; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
  • Zhao P; Department of Electronic Engineering, Tsinghua National Laboratory for Information Science and Technology , Tsinghua University , Beijing , China.
  • Schöll E; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
  • Gyger S; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
  • Reimer ME; Institute for Quantum Computing and Department of Electrical & Computer Engineering , University of Waterloo , Waterloo , Ontario N2L 3G1 , Canada.
  • Dalacu D; National Research Council of Canada , Ottawa , Ontario K1A 0R6 , Canada.
  • Poole PJ; National Research Council of Canada , Ottawa , Ontario K1A 0R6 , Canada.
  • Jöns KD; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
  • Zwiller V; Quantum Nano Photonics Group, Department of Applied Physics , Royal Institute of Technology (KTH) , Stockholm 106 91 , Sweden.
Nano Lett ; 18(12): 7969-7976, 2018 12 12.
Article em En | MEDLINE | ID: mdl-30474987
ABSTRACT
Semiconductor quantum dots are crucial parts of the photonic quantum technology toolbox because they show excellent single-photon emission properties in addition to their potential as solid-state qubits. Recently, there has been an increasing effort to deterministically integrate single semiconductor quantum dots into complex photonic circuits. Despite rapid progress in the field, it remains challenging to manipulate the optical properties of waveguide-integrated quantum emitters in a deterministic, reversible, and nonintrusive manner. Here we demonstrate a new class of hybrid quantum photonic circuits combining III-V semiconductors, silicon nitride, and piezoelectric crystals. Using a combination of bottom-up, top-down, and nanomanipulation techniques, we realize strain tuning of a selected, waveguide-integrated, quantum emitter and a planar integrated optical resonator. Our findings are an important step toward realizing reconfigurable quantum-integrated photonics, with full control over the quantum sources and the photonic circuit.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article
Texto completo
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Idioma: En Ano de publicação: 2018 Tipo de documento: Article