Add to ORKGIn 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
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
During the past two decades, the development of micro- and nano-fabrication technologies has positi...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
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...
Enhancement of single photon source emission through cavity quantum electrodynamics is key to the re...
A novel photonic crystal (PhC) cavity design is presented, for which the location of the cavity mode...
We demonstrate an optical modulator based on a single quantum dot strongly coupled to a photonic cry...
We present a basic building block of a quantum network consisting of a quantum dot coupled to a sour...
We analyze a single photon source consisting of an InAs quantum dot coupled to a directional-emissio...
In this thesis, various photonic crystal (PC) devices with quantum dot (QD) heterostructures have be...
In this paper, we review some recent cavity quantum electrodynamic (CQED) experiments with single qu...
This thesis describes the optical spectroscopic measurements of III-V nano-photonic circuit elements...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
During the past two decades, the development of micro- and nano-fabrication technologies has positi...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
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...
Enhancement of single photon source emission through cavity quantum electrodynamics is key to the re...
A novel photonic crystal (PhC) cavity design is presented, for which the location of the cavity mode...
We demonstrate an optical modulator based on a single quantum dot strongly coupled to a photonic cry...
We present a basic building block of a quantum network consisting of a quantum dot coupled to a sour...
We analyze a single photon source consisting of an InAs quantum dot coupled to a directional-emissio...
In this thesis, various photonic crystal (PC) devices with quantum dot (QD) heterostructures have be...
In this paper, we review some recent cavity quantum electrodynamic (CQED) experiments with single qu...
This thesis describes the optical spectroscopic measurements of III-V nano-photonic circuit elements...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
During the past two decades, the development of micro- and nano-fabrication technologies has positi...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...