Drude weight and the many-body quantum metric in one-dimensional Bose systems
Grazia Salerno, Tomoki Ozawa, Päivi Törmä
Abstract
We study the effect of quantum geometry on the many-body ground state of one-dimensional interacting bosonic systems. We find that the Drude weight is given by the sum of the kinetic energy and a term proportional to the many-body quantum metric of the ground state. Notably, the many-body quantum metric determines the upper bound of the Drude weight. We validate our results on the Creutz ladder, a flat-band model, using exact diagonalization at half and unit densities. Our work sheds light on the importance of the many-body quantum geometry in one-dimensional interacting bosonic systems.
Topics & Concepts
QuantumPhysicsMetric (unit)Ground stateKinetic energyQuantum mechanicsDrude modelEconomicsOperations managementCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systemsQuantum, superfluid, helium dynamics