Add to ORKGPlanar photonic crystal nanocavities, made in a thin semiconductor membrane and suspended by breakable tethers, are released after fabrication. The cavity spectrum can be read out remotely by detecting the photoluminescence of embedded Quantum Dots. Both transfer printing and deterministic positioning of the cavities on foreign substrates by individual micromanipulation is demonstrated. The microscopic environment of the particles, including their bonding to the substrate, determines the cavities' resonance spectrum, which can be exploited in applications. As the first application, we demonstrate a novel fiber-optic sensor with a PhC cavity chiplet attached to the tip of a single-mode optical fiber
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
Planar photonic crystal nanocavities, made in a thin semiconductor membrane and suspended by breakab...
Photonic crystal (PhC) cavities made in broadband luminescent material offer attractive possibilitie...
Using a micromanipulation technique, a planar photonic crystal nanocavity made from a thin semicondu...
The release of photoluminescent InGaAsP photonic crystal nanocavity chiplets from the host chip for ...
A novel technique for the fabrication of photonic crystal (PC) nanocavities coupled with colloidal n...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
A sensor designed to detect bio-molecules is presented. The sensor exploits a planar 2D photonic cry...
The paper deals with silicon-based photonic crystal microcavities that are made light-emitting by me...
Photonic Crystal (PhC) nanocavities have shown to be good candidates to enhance the spontaneous emis...
The sensitivities of resonant wavelengths of photonic crystal (PhC) membrane nanocavities with embed...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
Planar photonic crystal nanocavities, made in a thin semiconductor membrane and suspended by breakab...
Photonic crystal (PhC) cavities made in broadband luminescent material offer attractive possibilitie...
Using a micromanipulation technique, a planar photonic crystal nanocavity made from a thin semicondu...
The release of photoluminescent InGaAsP photonic crystal nanocavity chiplets from the host chip for ...
A novel technique for the fabrication of photonic crystal (PC) nanocavities coupled with colloidal n...
In order to demonstrate cavity quantum electrodynamics using photonic crystal (PhC) cavities fabrica...
A sensor designed to detect bio-molecules is presented. The sensor exploits a planar 2D photonic cry...
The paper deals with silicon-based photonic crystal microcavities that are made light-emitting by me...
Photonic Crystal (PhC) nanocavities have shown to be good candidates to enhance the spontaneous emis...
The sensitivities of resonant wavelengths of photonic crystal (PhC) membrane nanocavities with embed...
In recent years, there has been growing interest in optical sensors based on microcavities due to th...
[[abstract]]A photonic crystal (PhC) biosensor is presented to have improved sensitivity for detecti...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...