Descripción del proyecto
Análisis de las interacciones entre partículas en gases ultrafríos
Los átomos ultrafríos en una red óptica constituyen un método extraordinario para estudiar sistemas cuánticos de muchos cuerpos que, con anterioridad, solo se podían examinar con sistemas experimentales de materia condensada. Este nuevo método, denominado «simulación cuántica», posibilita la creación de materiales con estados exóticos. Hasta ahora, las simulaciones cuánticas han desestimado las interacciones en gases ultrafríos, al asociar cada cantidad observada a estados de partículas individuales. El proyecto LATIS, financiado con fondos europeos, tiene por objeto crear estados topológicos fuertemente correlacionados en gases ultrafríos mediante la manipulación de un pequeño conjunto de átomos en la red óptica. Su equipo aprovechará los últimos avances en la ingeniería de estructuras de bandas topológicas en redes ópticas y, de este modo, examinará la física que subyace a las interacciones entre partículas en gases ultrafríos con una precisión sin parangón.
Objetivo
The LATIS project builds on the latest advances in addressing individual atoms and engineering topological band structures in optical lattices, in view of exploring the rich physics of interacting topological matter with unprecedented control. Ultracold topological matter has recently emerged as a central theme in the realm of quantum gases. By manipulating ultracold atoms in optical lattices, various experimental groups have realized a variety of topological band structures and detected their characteristic features. Creating topological matter with ultracold atoms offers a novel view on intriguing phenomena initially discovered in the solid state but also allows for the realization of exotic states that are inaccessible in real materials. This quantum-simulation approach to topological matter generates a constructive synergy between theoretical developments driven by curiosity and concrete technological applications. Until now, ultracold topological matter has been explored in the non-interacting regime of quantum gases, so that the observed quantities are associated with single-particle states. However, exciting avenues would become accessible upon combining engineered band structures with tunable interactions. This scenario would provide a concrete path towards the experimental realization of strongly-correlated topological states in ultracold gases. A promising path to create and address such states consists in manipulating a very small ensemble of atoms within a few lattice sites of an optical lattice, as now made possible by quantum gas microscopes. This setting would allow for unprecedented control over strongly-correlated topological matter, hence offering a unique framework for many-body quantum physics. The results emanating from the LATIS project will have a substantial impact on a wide scientific community working on quantum geometry and topological states of matter, with direct consequences for ongoing experiments on synthetic topological systems.
Ámbito científico
Palabras clave
Programa(s)
- HORIZON.1.1 - European Research Council (ERC) Main Programme
Régimen de financiación
ERC - Support for frontier research (ERC)Institución de acogida
1050 Bruxelles / Brussel
Bélgica