Controlling dipolar exchange interactions in a dense three-dimensional array of large-spin fermions
A. Patscheider, B. Zhu, L. Chomaz, D. Petter, S. Baier, A.-M. Rey, F. Ferlaino, M. J. Mark
Abstract
The authors study the magnetization conserving dipolar induced spin-exchange dynamics of fermionic erbium atoms confined in a 3D optical lattice using experimental and theoretical work. Their results reveal high controllability of the dynamics by preparing the atoms in different spin Fock states and by tuning the dipole orientation.
Topics & Concepts
PhysicsFermionCondensed matter physicsDipoleControllabilityOptical latticeMagnetizationLattice (music)Dynamics (music)Spin (aerodynamics)Exchange interactionQuantum mechanicsFock spaceErbiumMagnetization dynamicsFerromagnetismWork (physics)Cold Atom Physics and Bose-Einstein CondensatesMagnetic properties of thin filmsTopological Materials and Phenomena