ABSTRACT
Integrated quantum hybrid devices, built from classical dielectric nanostructures and individual quantum systems, promise to provide a scalable platform to study and exploit the laws of quantum physics. On the one hand, there are novel applications, such as efficient computation, secure communication, and measurements with unreached accuracy. On th
TABLE OF CONTENTS
part |2 pages
PART I - FUNDAMENTALS OF QUANTUM OPTICS
part |2 pages
PART II - QUANTUM SYSTEMS FOR INTEGRATION INTO HYBRID DEVICES
part |2 pages
PART III - OPTICAL MICROSTRUCTURES
part |2 pages
PART IV - COUPLING OF QUANTUM SYSTEMS TO OPTICAL MICROSTRUCTURES