NSCPHD1106 Quantum Nanophotonics PhD course
MSc Programme in Nanoscience
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Quantum optics in solid-state nanophotonics systems is a rapidly
progressing research field that focuses on controlling the
interaction between light and matter.
The course will provide an introduction to the quantum optical description of light-matter interaction in nanophotonic structures. The physics of dielectric nanophotonics structures will be discussed in details including photonic crystal cavities and waveguides. Furthermore, the optical properties of solid-state light emitters (quantum dots) are introduced. The interaction between photons and quantum dots provides the core of the course including the discussion of Wigner-Weisskopf theory of spontaneous emission in nanostructures, the master equation description of light-matter interaction with dephasing, and cavity quantum electrodynamics. In the later part of the course examples of modern research topics will be discussed including also experimental aspects of highly-efficient single-photon sources and basic quantum information
The aim of the course is to bring the students at a level where
they are capable of comprehending modern research literature on
Specifically, after following this course students should be able to:
- discuss the concept of dephasing and the consequences for light emission
- analyze the different quantum electrodynamics regimes for a quantum emitter in a cavity
- discuss methods of creating an efficient single-photon source and the applications of it
- discuss basic quantum information protocols implemented in solid-state systems
- describe basic principles of photonic crystals
- explain the concepts of photonic crystal cavities and waveguides
- explain fundamental principles of light emission from quantum dots
- account for the theory of spontaneous emission in photonic nanostructures
This course will provide the students with a competent background for doing research within solid-state quantum optics, i.e. through a M.Sc. project.
- Theory exercises
Registration: Peter Lodahl, 3532 5306
- 7,5 ECTS
- Type of assessment
- Oral examination, 25 minPreparation time: 5 minutes where books and notes are allowed.
- Written aids allowed
- Marking scale
- 7-point grading scale
- Censorship form
- No external censorship
More internal examiners
Criteria for exam assesment
The highest mark (12) is given for excellent exam performance
that demonstrates full mastering of the above mentioned teaching
goals with no or only small irrelevant gaps.
The grade 2 is given to a student who has achieved only minimally the course goals.