Niveau d'étude
Bac +5
ECTS
3 crédits
Composante
UFR PhITEM (physique, ingénierie, terre, environnement, mécanique)
Période de l'année
Toute l'année
Description
Teachers : Nicolas Roch (CNRS), Tristan Meunier (CNRS and Quobly)
Objectives :
This course will present an introduction to quantum information using experimental devices. It will expose the main tools and concepts of quantum circuits and their implementation using Solid state Qubits.
Program :
Introduction : Overview of the different types of Qubits (atoms, photons and solid states)
Chapter 1: Superconducting Qubits
- Hamiltonian of an experimental circuit
- Qubit manipulation
- Circuit quantum electrodynamics and measurements.
- Decoherence processes
- Multi-Qubits
Chapter 2: Spin Qubits
- Semiconducting spin Qubits and their Hamiltonians
- Single and double dot Qubits
- Manipulation of Spin Qubits
Prerequisites:
Quantum mechanics M1, Solid state physics M1, Semiconductor physics M1
Heures d'enseignement
- UE Solid State Qubits - CMTDCours magistral - Travaux dirigés24h
Période
Semestre 9