In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabricated around self-assembled quantum dots (QDs), reliable spectral and spatial overlap between the cavity mode and the quantum dot is required. We present a method for using photoresist to optically fabricate heterostructure cavities in a PhC waveguide with a combined photolithography and micro-photoluminescence spectroscopy system. The system can identify single QDs with a spatial precision of ±25 nm, and we confirm the creation of high quality factor cavity modes deterministically placed with the same spatial precision. This method offers a promising route towards bright, on-chip single photon sources for quantum information applications
Trabajo presentado en el 19th International Conference on Molecular-Beam Epitaxy (IC-MBE), celebrado...
We have registered the position and wavelength of a single InGaAs quantum dot using an innovative cr...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
The difficulty of achieving reliable spectral and spatial overlap is a serious problem when fabricat...
The difficulty of achieving reliable spectral and spatial overlap is a serious problem when fabricat...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
A novel photonic crystal (PhC) cavity design is presented, for which the location of the cavity mode...
Enhancement of single photon source emission through cavity quantum electrodynamics is key to the re...
In this thesis, various photonic crystal (PC) devices with quantum dot (QD) heterostructures have be...
The updated data files are supporting demonstration of weak coupling between a cavity mode and emiss...
Defects in photonic crystals (PCs) can support localized light modes with extremely small mode volum...
We have investigated the optical properties of planar photonic crystal cavities formed by removing a...
Photonic Crystal (PhC) nanocavities have shown to be good candidates to enhance the spontaneous emis...
We have registered the position and wavelength of a single InGaAs quantum dot using an innovative cr...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
Trabajo presentado en el 19th International Conference on Molecular-Beam Epitaxy (IC-MBE), celebrado...
We have registered the position and wavelength of a single InGaAs quantum dot using an innovative cr...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
The difficulty of achieving reliable spectral and spatial overlap is a serious problem when fabricat...
The difficulty of achieving reliable spectral and spatial overlap is a serious problem when fabricat...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
A novel photonic crystal (PhC) cavity design is presented, for which the location of the cavity mode...
Enhancement of single photon source emission through cavity quantum electrodynamics is key to the re...
In this thesis, various photonic crystal (PC) devices with quantum dot (QD) heterostructures have be...
The updated data files are supporting demonstration of weak coupling between a cavity mode and emiss...
Defects in photonic crystals (PCs) can support localized light modes with extremely small mode volum...
We have investigated the optical properties of planar photonic crystal cavities formed by removing a...
Photonic Crystal (PhC) nanocavities have shown to be good candidates to enhance the spontaneous emis...
We have registered the position and wavelength of a single InGaAs quantum dot using an innovative cr...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
Trabajo presentado en el 19th International Conference on Molecular-Beam Epitaxy (IC-MBE), celebrado...
We have registered the position and wavelength of a single InGaAs quantum dot using an innovative cr...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...