Highly circular-polarized single photon generation from a single quantum dot at zero magnetic field
スポンサーリンク
概要
- 論文の詳細を見る
Origin of sharp photoluminescence lines observed from an InAlAs quantum dot was identified with the measurements of excitation-power dependences and polarization correlations, together with photon correlation measurements. Single photon emission with high degree of circular polarization (DCP) up to 60% was observed from a positively charged exciton (trion) state in the single quantum dot under non-resonant excitation at zero magnetic field.
著者
関連論文
- Position controlled nanowires for infrared single photon emission
- Optical anisotropy and photoluminescence polarization in single InAlAs quantum dots
- Single photon emission with high degree of circular polarization from a single quantum dot under zero magnetic field
- Highly circular-polarized single photon generation from a single quantum dot at zero magnetic field
- Spin-flip quenching in trion state mediated by optical phonons in a single quantum dot
- First-order photon interference of a single photon from a single quantum dot
- Quantum-Dot-Based Photon Emission and Media Conversion for Quantum Information Applications
- Excitonic spin-state preservation mediated by optical-phonon resonant excitation in a single quantum dot
- Characterization of two-photon polarization mixed states generated from entangled-classical hybrid photon source
- Decoherence of exciton complexes in single InAlAs quantum dots measured by Fourier spectroscopy
- Longitudinal and transverse exciton-spin relaxation in a single InAsP quantum dot embedded inside a standing InP nanowire using photoluminescence spectroscopy
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (レーザ・量子エレクトロニクス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (光エレクトロニクス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (機構デバイス)
- Single InAs quantum dots in metal embedded nano-cone structures emitting in the telecommunication O and C bands (電子部品・材料)
- Direct observation of nuclear field fluctuations in single quantum dots
- Inter-dot coupling and excitation transfer mechanisms of telecommunication band InAs quantum dots at elevated temperatures
- Precise measurements of electron and hole g factors of single quantum dots by using nuclear field
- Nuclear and excitonic spin polarization formed using cross-linearly polarized pulse pair via half-localized state in a single self-assembled quantum dot
- Discrimination of quantum dots using an optically created nuclear field