A new material for light-matter interactions

A gas of lithium atoms at nano-Kelvin temperature is trapped by laser beams and placed between two optical mirrors. Credit: H. Konishi (EPFL) - EPFL scientists have coupled a new material with light at the level of a single photon. The achievement opens up prospects for better controlling and understanding the properties of quantum-correlated systems, where theoretical calculations are difficult. There is a large group of materials that physicists refer to as "strongly correlated", which include insulators and electronic materials that have unusual electronic and magnetic properties, or even neutrons in neutron stars. Their properties result from the fact that their constituents interact very strongly with each other: new features appear at the collective level, that are not present in isolated particles. The unique properties of strongly correlated materials are often technologically useful, and are thus used in superconducting magnets and magnetic storage technology, but also in the emerging 'quantum technologies'. Now, scientists led by Jean-Philippe Brantut at EPFL's Institute of Physics, have discovered the first complex, strongly correlated material whose constituents are strongly coupled to light at the single-photon level.