8 classes: 5 of lectures, 2 of case study discussions, 1 oral presentation from the students.
New quantum technologies are at the hearth of ambitious research program, with important funding from governments and private actors. In view of future commercial realizations, a very practical question arises: how do we implement operational quantum devices? After a brief overview of quantum technologies and their applications, this course aims at answering this question. It will present the technical difficulties related to the realization of some key quantum systems as well as current proposed solutions, either already existing or under development.
The implementation of quantum devices requires a broad spectrum of skills at the interface between physics and engineering (electronics, materials science, superconductors, signal processing...). The course will emphasize in particular the cross-disciplinary skills that are in great demand in the quantum industry, but which can also be applied to a wide variety of non-quantum problems and thus have a very wide range of applications.
During this course, in parallel to the lectures, concrete cases will be studied by the students (articles, online demonstrators, etc.) and a visit to a laboratory may be scheduled.
No previous knowledge of quantum physics will be requested. The fundamentals of quantum technologies will be presented in an accessible way to science students through a mix of lectures and tutorials. The course will focus in particular on their practical interest in very different disciplines (chemistry, computer science, biology, electronics, physics ...).
It should be noted that a second course entitled “Quantum Technologies” is also available during the autumn semester and focusing on the fundamental concepts of quantum physics and quantum technologies.
Classroom number for the entire fall semester :
8 classes: 5 of lectures, 2 of case study discussions, 1 oral presentation from the students.
En présentiel : cours
En présentiel : cours
En présentiel : cours, exposés, etc.
En présentiel : cours, exposés, etc.
En présentiel : cours, exposés, etc.
En présentiel : cours, exposés, etc.
Cold atoms: what and what for?
Conservative traps and cooling to quantum degeneracy
En présentiel : cours, exposés, etc.
Tour of the cold-atom labs at INPHYNI
En présentiel : Evaluation: students’ presentation on a given case study