Internship and thesis proposals
Towards a quantum interface between ionic qubits and entangled photons

Domaines
Quantum optics/Atomic physics/Laser
Quantum information theory and quantum technologies
Quantum optics
Non-linear optics
Metrology

Type of internship
Expérimental
Description
Recent advances in quantum physics have given rise to cutting-edge fields such as quantum computing, quantum simulation, and quantum communication—driving the rapid development of quantum technologies. Over the past few years, our research team has developed two experimental components using complementary quantum platforms: laser-cooled trapped ions and semiconductor sources of correlated photons. This internship proposal is at the intersection of these two areas, with the goal of developing a hybrid quantum platform. The project focuses on addressing one of the key challenges in quantum communication networks: creating a seamless connection between static qubits (trapped ions) and flying qubits (single photons).

Contact
Valentin Cambier
+33157276997


Email
Laboratory : MPQ - UMR7162
Team : QITe
Team Website
/ Thesis :    Funding :