Add to ORKGLight is at the heart of many present-day technologies. Control over the interaction strength between light and matter is pivotal to the success of most such technologies. Such control is typically offered by optical resonators, which store and confine light to increase its interaction strength with matter. Yet, today, the most commonly used resonators suffer from intrinsic drawbacks that limit their implementation on a large scale, particularly in a network for quantum information processing. This thesis studies how hybrid resonators, which support states for light that are composed of multiple underlying states, can overcome the limitations of single resonators and provide new ways to guide and store light. In particular, we consider two ...
Thesis (Ph.D.)--University of Washington, 2021Controllable light-matter interactions are of central ...
We show that a broadband Fabry Perot microcavity can assist an emitter coupled to an off-resonant pl...
In the light-matter strong coupling regime, the excited state of quantum emitters is inextricably li...
Hybrid cavity-antenna systems have been proposed to combine the sub-wavelength light confinement of ...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
We report on the design of a novel nanoresonator operating at visible wavelengths, in which light co...
We analyse the resonant mode structure and local density of states in high-Q hybrid plasmonic-photon...
Theoretical thesis.Bibliography: pages 107-119.1. Introduction -- 2. Enhanced optical coupling in wh...
Controlling the localization of light has been studied through many approaches and has become a subj...
Strong interaction between light and a single quantum emitter is essential to a great number of appl...
© 2017 American Chemical Society. In the light-matter strong coupling regime, the excited state of q...
We study the control of electromagnetically induced transparency and Fano resonances in a hybrid opt...
We investigate the reduction of the electromagnetic field fluctuations in resonance fluorescence fro...
We propose a hybrid photonic-plasmonic resonant structure which consists of a metal nanoparticle (MN...
We present a structure combing a photonic crystal cavity with a plasmonic bowtie nanoantenna produci...
Thesis (Ph.D.)--University of Washington, 2021Controllable light-matter interactions are of central ...
We show that a broadband Fabry Perot microcavity can assist an emitter coupled to an off-resonant pl...
In the light-matter strong coupling regime, the excited state of quantum emitters is inextricably li...
Hybrid cavity-antenna systems have been proposed to combine the sub-wavelength light confinement of ...
The interaction between light and matter (an atom or a molecule) is generally weak, while the abilit...
We report on the design of a novel nanoresonator operating at visible wavelengths, in which light co...
We analyse the resonant mode structure and local density of states in high-Q hybrid plasmonic-photon...
Theoretical thesis.Bibliography: pages 107-119.1. Introduction -- 2. Enhanced optical coupling in wh...
Controlling the localization of light has been studied through many approaches and has become a subj...
Strong interaction between light and a single quantum emitter is essential to a great number of appl...
© 2017 American Chemical Society. In the light-matter strong coupling regime, the excited state of q...
We study the control of electromagnetically induced transparency and Fano resonances in a hybrid opt...
We investigate the reduction of the electromagnetic field fluctuations in resonance fluorescence fro...
We propose a hybrid photonic-plasmonic resonant structure which consists of a metal nanoparticle (MN...
We present a structure combing a photonic crystal cavity with a plasmonic bowtie nanoantenna produci...
Thesis (Ph.D.)--University of Washington, 2021Controllable light-matter interactions are of central ...
We show that a broadband Fabry Perot microcavity can assist an emitter coupled to an off-resonant pl...
In the light-matter strong coupling regime, the excited state of quantum emitters is inextricably li...