Add to ORKGSemiconductor nanowires of high purity and crystallinity hold promise as building blocks for miniaturized optoelectrical devices. Using scanning-excitation single-wire emission spectroscopy, with either a laser or an electron beam as a spatially resolved excitation source, we observe standing-wave exciton polaritons in ZnO nanowires at room temperature. The Rabi splitting between the polariton branches is more than 100 meV. The dispersion curve of the modes in the nanowire is substantially modified due to light-matter interaction. This finding forms a key aspect in understanding subwavelength guiding in these nanowires
Wide band gap semiconductor nanostructures with near-cylindrical geometry and large dielectric const...
The coupling strength of the radiative transition of hexagonal ZnO nanowires to the longitudinal opt...
In this thesis, we have studied the experimental properties of one-dimensional polaritons in the ZnO...
Semiconductor nanowires of high purity and crystallinity hold promise as building blocks for miniatu...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry-Pérot-l...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry-Pérot-l...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry−Pérot-...
We present a high quality two-dimensional cavity structure based on ZnO nanowires coated with concen...
Zinc oxide (ZnO) has been investigated for UV/blue emitters and optoelectronics because of its wide ...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
Wide band gap semiconductor nanostructures with near-cylindrical geometry and large dielectric const...
The coupling strength of the radiative transition of hexagonal ZnO nanowires to the longitudinal opt...
In this thesis, we have studied the experimental properties of one-dimensional polaritons in the ZnO...
Semiconductor nanowires of high purity and crystallinity hold promise as building blocks for miniatu...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
5 pages, 3 figuresSingle ZnO microwires are investigated by angle-resolved photoluminescence spectro...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry-Pérot-l...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry-Pérot-l...
The emission spectrum of individual high-quality ZnO nanowires consists of a series of Fabry−Pérot-...
We present a high quality two-dimensional cavity structure based on ZnO nanowires coated with concen...
Zinc oxide (ZnO) has been investigated for UV/blue emitters and optoelectronics because of its wide ...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
The emission spectrum of individual single crystalline ZnO nanowires shows three regimes characteriz...
Wide band gap semiconductor nanostructures with near-cylindrical geometry and large dielectric const...
The coupling strength of the radiative transition of hexagonal ZnO nanowires to the longitudinal opt...
In this thesis, we have studied the experimental properties of one-dimensional polaritons in the ZnO...