Research

Cavity QED

We are developing a system where ultracold Strontium atoms are coupled to a high-finesse optical cavity.
With the quantum control that this system provide, we
1) study the light-matter interaction at the funamental quantum level.
2) harness the strong atom-light interaction to engineer many-body entangled states for both QIS and quantum metrology applications.

Ultracold Atoms

We study and develop techniques to cool rapidly and efficiently atoms to ultracold temperatures.
Reaching ultracold temperatures is crucial for both i) high-fidelity quantum control of atomic states and ii) for the study of quantum phenomena in quantum degenerate gases.

Laser technology

Developing novel laser designs and technology is crucial to meeting our specific requirements in laser performances. By pushing the boundaries of current technology, it is possible to create solutions tailored to our needs, namely ultranarrow linewidth and superior stability. Innovation in laser design can lead to breakthroughs in efficiency, precision, and adaptability, ultimately advancing capabilities in various industries.