Quantum Optics and Quantum Information
1
2023-2024
02044056
Physics
Portuguese
English
Face-to-face
SEMESTRIAL
6.0
Elective
2nd Cycle Studies - Mestrado
Recommended Prerequisites
Portuguese, or English if there is at least one non-native speaker in the room.
Teaching Methods
This course will combine theoretical and exercise problem sheets in such a way that the student can acquire the techniques to investigate Many-Body Systems. The concepts will then be worked out by the study of applications always present during the course.
Learning Outcomes
The main goal of this course is to provide in-depth knowledge of Physics in the field of quantum optics and its technological applications, quantum computing and quantum information.
Work Placement(s)
NoSyllabus
1- Classical and quantum descriptions of electomagnetism
1.1- Coherent states
1.2- Sobreposition of coherent states and the density matrix
2- Radiative transitions
2.1- Einstein coefficients, rates of transition and selection rules
2.2- Width and shpe of te spectral lines
2.3- Lasers and masers
3- Photon statistics: "bunhcing" e “antibunching”
4- Interaction of radiation with matter
4.1- Two level systems and ressonant processes
4.2- Weak field and Einstein coefficients
4.3- Strong field: Rabi oscillation and damping
5- Atoms in cavities
5.1- Optical cavities and the coupling atom-cavitye
5.2- Weak field and spontaneous emission. Purcell effectL
6- Applications
7- Quantum computing and quantum information
8- Quantum criptography.
Head Lecturer(s)
Orlando Olavo Aragão Aleixo e Neves de Oliveira
Bibliography
M. Fox, Quantum Optics: an introduction, Oxford University Press 2002
J. C. Garrison, R. Y. Chiao, Quantum Optics, Oxford University Press 2008
C. Gerry, P. Knight, Introdutry Quantum Optics, Cambridge University Press 2005
W. T. Silfvast, Laser Fundamentals, Cambridge University Press 2003.