Category
Nonlinear optics
Related courses (11)
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The physics of optical communication components and their applications to communication systems will be covered. The course is intended to present the operation principles of contemporary optical comm
CH-417: Optical methods in chemistry
Introduction and application of photon based tools for chemical sciences: from basic concepts to optical and x-ray lasers
PHYS-761: Attosecond radiation sources
This course describes the principles of attosecond photons and electron pulses generation
MICRO-426: Laser fundamentals and applications for engineers
The course will cover the fundamentals of lasers and focus on selected practical applications using lasers in engineering. The course is divided approximately as 1/3 theory and 2/3 covering selected
MICRO-422: Lasers: theory and modern applications
This course gives an introduction to Lasers by both considering fundamental principles and applications. Topics that are covered include the theory of lasers, laser resonators and laser dynamics.
In
MICRO-410: Classical and quantum photonic transducers
This course gives an introduction to transducers by both considering fundamental principles and their application in classical and quantum systems. The course builds up on the fundamental concept of c
PHYS-470: Nonlinear optics for quantum technologies
This course provides the fundamental knowledge and theoretical tools needed to treat nonlinear optical interactions, covering both classical and quantum theory of nonlinear optics. It presents applica
PHYS-607: Nonlinear fibre optics
Presentation of the different sources of optical nonlinearities in an optical fibre
PHYS-724: Ultrafast Phenomena
The course will cover fundamental concepts and recent developments in the field of ultrafast spectroscopy and introduce the basic theory to understand ultrafast (10-16 - 10-9 s) phenomena in chemistry
PHYS-449: Optics III
Réaliser un système d'optique complexe. Comprendre l'interaction de la lumière avec la matière en optique nonlinéaire et optique pulsé. Comprendre les méthodes de génération, d'amplification e de comp