Number of hours
- Lectures 10.0
- Projects 0
- Tutorials 6.0
- Internship 0
- Laboratory works 0
ECTS
ECTS 1.5
Goal(s)
Understand and solve the electromagnetic wave equations (Maxwell) for various systems (vacuum, dielectrics, conductors and their association). Understand the basic concepts of spectroscopy due to the interaction photon-matter.
Contact Liliana PREJBEANUContent(s)
Part I: Basic concepts of electromagnetic waves
Maxwell’s equations
Parameters of media
Boundary conditions
Energy
EM Wave equation
Interface phenomena (R, T)
Multilayers waveguide (metal/dielectric)
Part II: Spectroscopy and Electric Phenomena at the interfaces
Elastic light scattering (Rayleigh scattering)
Surface Plasmon Resonance (SPR)
Surface-enhanced Raman spectroscopy (SERS)
Florescence Resonant Energy Transfer (FRET)
Two-photon spectroscopy
Prerequisites
use vectors and complex numbers
Semester 7 - The exam is given in english only
In-class SESSION1:
Type d'évaluation : Written exam
Durée : 2h
Modalités : AUTHORIZED: Copy of the slides and hand-notes of tutorials are allowed
Calculator : AUTHORIZED
session 2 condition normale :
type d'examen : written exam
durée :2h
modalités : AUTHORIZED: Copy of the slides and hand-notes of tutorials are allowed
Calculator : AUTHORIZED
session 1 containment condition :
type d'examen : QCM enligne / MCQ online
durée :
modalités :
session 1 containment condition :
type d'examen : QCM enligne / MCQ online
durée :
modalités :
calculatrice :
session 1 condition normale : 100% exam
session 2 condition normale : 100% exam
session 1 condition confinement :
session 2 condition confinement :
Semester 7 - This course is given in english only
P. Combes Microndes, Dunod (1983)
D. Pozar "Microwave Engineering" Wiley (2012)
E. Le Ru, P. Etchegoin "Principles of Surface Enhanced Raman Spectroscopy and realted plasmonic effects" Elsevier (2008)