Effect of dipole orientation on Purcell factor for the quantum emitter near silicon nanoparticle | Zendy

Anastasia Zalogina | Zendy; Javid Javadzade | Zendy; Dmitry Zuev | Zendy; Roman S. Savelev | Zendy; Vadim Vorobyov | Zendy; Sergey Makarov | Zendy; Pavel A. Belov | Zendy; А. В. Акимов | Zendy; Ilya V. Shadrivov | Zendy

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Effect of dipole orientation on Purcell factor for the quantum emitter near silicon nanoparticle

Author(s) -

Anastasia Zalogina,

Javid Javadzade,

Dmitry Zuev,

Roman S. Savelev,

Vadim Vorobyov,

Sergey Makarov,

Pavel A. Belov,

А. В. Акимов,

Ilya V. Shadrivov

Publication year - 2017

Publication title -

aip conference proceedings

Language(s) - English

Resource type - Conference proceedings

SCImago Journal Rank - 0.177

H-Index - 75

eISSN - 1551-7616

pISSN - 0094-243X

DOI - 10.1063/1.4998131

Subject(s) - nanophotonics , common emitter , purcell effect , nanodiamond , optoelectronics , quantum dot , plasmon , dipole , materials science , silicon , spontaneous emission , dielectric , quantum optics , quantum , optics , physics , quantum mechanics , laser , diamond , composite material

Understanding the optical properties of quantum emitters is the cornerstone of many phenomena in nanophotonics. Spontaneous emission from quantum emitters can be modified when they are placed in resonators, for example, near plasmonic or dielectric nanoantennas. We numerically study the Purcell factor of the emitter inside a nanodiamond placed near the resonant silicon nanoparticle. We show that in this system the 11-fold enhancement can be achieved for a specific orientation of the dipole moment of the emitter. The obtained results are of particular importance for nanophotonic applications which aim to control optical properties of quantum light sources.

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