Innovative technologies, devices and materials

Objectifs

 At the end of this module, the student will have understood and be able to explain:

- The plasma process

- New technologies and materials for the microelectronics applications

- Concepts of the physics of continuous media

- Quantum phenomena such as diffusion, EPR, , quantum cryptography: entangled states, single-photon and pairs of  entangled states source based on semiconductors quantum dots

The student will be able to apply the quantum mechanics formalism to describe innovative devices at the nano-scale. 

The student will be able to:

-choose the kind of scanning probe microscopy well adapted to one a specific application

-analyse and interpret basic images of scanning probe microscopy

Pré-requis

Electromagnetism

Quantum Mechanics (I4GPPM11)

Mathematics: matrix calculus and differential equations

Physical Metallurgy (real crystal, diffusion, precipitation, nucleation and growth)

Basic knowledge of symbolic computational tool like Maxima

Évaluation

L’évaluation des acquis d’apprentissage est réalisée en continu tout le long du semestre. En fonction des enseignements, elle peut prendre différentes formes : examen écrit, oral, compte-rendu, rapport écrit, évaluation par les pairs…