Correlations between axial and lateral emission of coupled quantum dot–micropillar cavities
We report on optical studies of coupled quantum dot–micropillar cavities using a 90∘
excitation-and-detection scheme. This specific configuration allows us to excite the …
excitation-and-detection scheme. This specific configuration allows us to excite the …
Multimode physics in the mode locking of semiconductor quantum dot lasers
Quantum dot lasers are an attractive option for light sources in silicon photonic integrated
circuits. Thanks to the three-dimensional charge carrier confinement in quantum dots, high …
circuits. Thanks to the three-dimensional charge carrier confinement in quantum dots, high …
Purification of a single-photon nonlinearity
Single photon nonlinearities based on a semiconductor quantum dot in an optical
microcavity are a promising candidate for integrated optical quantum information processing …
microcavity are a promising candidate for integrated optical quantum information processing …
Non-resonant dot–cavity coupling and its potential for resonant single-quantum-dot spectroscopy
Non-resonant emitter–cavity coupling is a fascinating effect recently observed as
unexpected pronounced cavity resonance emission even in strongly detuned single …
unexpected pronounced cavity resonance emission even in strongly detuned single …
Output Characteristics of Pulsed and Continuous-Wave-Excited<? format?> Quantum-Dot Microcavity Lasers
In the rapidly evolving field of quantum-dot-based microcavity lasers the device
characterization is of great importance. In this Letter, we study how information can be …
characterization is of great importance. In this Letter, we study how information can be …
Kerr-induced synchronization of a cavity soliton to an optical reference
The phase-coherent frequency division of a stabilized optical reference laser to the
microwave domain is made possible by optical-frequency combs (OFCs),. OFC-based …
microwave domain is made possible by optical-frequency combs (OFCs),. OFC-based …
Directly modulated quantum dot lasers on silicon with a milliampere threshold and high temperature stability
Microring lasers feature ultralow thresholds and inherent wavelength-division multiplexing
functionalities, offering an attractive approach to miniaturizing photonics in a compact area …
functionalities, offering an attractive approach to miniaturizing photonics in a compact area …
Cavity quantum electrodynamics with site-controlled pyramidal quantum dots in photonic crystal cavities
M Ćalić - 2013 - infoscience.epfl.ch
Cavity quantum electrodynamics encompasses the study and control of the interactions
between quantum light sources and resonant modes of optical cavities. The subject of this …
between quantum light sources and resonant modes of optical cavities. The subject of this …
A gated quantum dot strongly coupled to an optical microcavity
The strong-coupling regime of cavity quantum electrodynamics (QED) represents the light–
matter interaction at the fully quantum level. Adding a single photon shifts the resonance …
matter interaction at the fully quantum level. Adding a single photon shifts the resonance …
Passively mode-locked 4.6 and 10.5 GHz quantum dot laser diodes around 1.55 μm with large operating regime
MJR Heck, A Renault, EAJM Bente… - IEEE Journal of …, 2009 - ieeexplore.ieee.org
Passive mode-locking in two-section InAs/InP quantum dot laser diodes operating at
wavelengths around 1.55 μ m is reported. For a 4.6-GHz laser, a large operating regime of …
wavelengths around 1.55 μ m is reported. For a 4.6-GHz laser, a large operating regime of …