Add to ORKGWe present the results of recent investigations into the fabrication and characterization of high-Q, small mode volume one-dimensional photonic crystal nanobeam cavities in Si and two-dimensional photonic crystal slab nanocavities in GaAs. The nanobeam cavity modes are investigated in transmission by means of a microfiber taper loop apparatus. The spectral transmission profile of the cavity modes is investigated as a function of input polarization into the fiber. The Q of the cavity for different positions and orientations of the fiber taper is investigated. The results are compared to measurements by resonant scattering. The slab nanocavities are investigated by means of quantum dot photoluminescence excitation spectroscopy. We present rec...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
We develop Si-based nano-photonic devices for the control of light at the nano-scales. We design hig...
We have recently developed photonic crystal nanocavities and lasers from both InGaAsP quantum well a...
We present the results of recent investigations into the fabrication and characterization of high-Q,...
The topic of this dissertation is photonic crystal nanocavities for semiconductor cavity quantum ele...
This paper describes the design and fabrication process of a two-dimensional GaAs-based photonic cry...
High quality factor, small mode volume photonic crystal cavities and single emitter quantum dots are...
This paper describes the design and fabrication process of a two-dimensional GaAs-based photonic cry...
We have investigated the miniaturization of photonic devices for ultimate photon localization, and h...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
We have characterized the modes within two-dimensional photonic crystal nanocavities with self-organ...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
We develop Si-based nano-photonic devices for the control of light at the nano-scales. We design hig...
We have recently developed photonic crystal nanocavities and lasers from both InGaAsP quantum well a...
We present the results of recent investigations into the fabrication and characterization of high-Q,...
The topic of this dissertation is photonic crystal nanocavities for semiconductor cavity quantum ele...
This paper describes the design and fabrication process of a two-dimensional GaAs-based photonic cry...
High quality factor, small mode volume photonic crystal cavities and single emitter quantum dots are...
This paper describes the design and fabrication process of a two-dimensional GaAs-based photonic cry...
We have investigated the miniaturization of photonic devices for ultimate photon localization, and h...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
We have characterized the modes within two-dimensional photonic crystal nanocavities with self-organ...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
We develop Si-based nano-photonic devices for the control of light at the nano-scales. We design hig...
We have recently developed photonic crystal nanocavities and lasers from both InGaAsP quantum well a...