Les équipes

Fundamental research at the ultra-low temperature frontier

Designing and analyzing theoretically model systems for the exploration of emergent quantum phenomena in nanoelectronic devices

New experimental paradigms to deciphere how activity or energy patterns at very small scale control the physics and the organization of many systems

Theoretical research related to quantum materials and first-principles theory

Investigating quantum interactions in 2D materials with tunable charge, spin, photonic and phononic excitations

Exploring the magnetic, electronic and structural organizations in low dimensional systems

From wide band gap semiconductors to innovative electronic devices: power electronics, light emitting diodes and sensors

NPSC explores new physical phenomena, related to photons, electrons and spin, at quantum scale, in II-VI and III-V semiconductors nanostructures

Merging (quantum) optics and forces at the nanoscale for opening new horizons in fundamental science

Magnetic systems at the micro and nano scales: from fundamental research to applications in spintronics, energy and life sciences

Understanding the structural origin of physical-chemical behaviors in complex materials

Material chemistry, theoretical and physical expertises for the optimization and control of optical properties

Systems involving charge, spin or lattice degrees of freedom

Exploring physics from quantum vortices to cosmos using helium and cryogenics

The team focuses its research on experimental studies to reveal quantum effects in original and novel quantum nano-electronics devices

Local spectroscopy and quantum transport in 2D materials and nanostructures