Missions

The recruited assistant engineer will be responsible for numerically simulating and developing the theoretical formalism related to our scientific research. The software used will include COMSOL and LUMERICAL. The underlying theory involves Maxwell's equations and quantum optics.

Activités

The associated research topics are:

"Magnetic light" – matter coupling
All-optical generation of stationary magnetic fields
Detection of chiral molecules in optical nanostructures

Compétences

Numerical and Theoretical Simulations

Contexte de travail

In our research team, we design, fabricate, and use photonic, metallic, or dielectric nanostructures to study and enhance light-matter coupling. Specifically, we focus on the coupling between the magnetic field of light and matter, the coupling between chiral light and chiral matter, and the all-optical magnetization of matter.

Using cutting-edge techniques such as inverse design, we numerically design nanostructures with properties superior to commonly used nano-objects.

With state-of-the-art nanofabrication techniques, we create these nanostructures.

Through innovative experimental techniques, we characterize the enhancement of the phenomena mentioned above.

Our research is conducted collaboratively, and each team member is encouraged to work closely with the entire team, fostering a positive and productive work environment. Individually, everyone is encouraged to perform to the best of their ability, and each person receives tailored support depending on their career level (master's student, PhD candidate, postdoctoral researcher, research engineer, junior researcher), ensuring that the work done and the assistance received are fully beneficial (such as obtaining a PhD scholarship, postdoc position, project writing assistance, career advancement, etc.).

For more information, please visit our website: magneticnanolight.com

Contraintes et risques

None