A compact and fast magnetic coil for the manipulation of quantum gases with Feshbach resonances
A. Kell, M. Link, Moritz Breyer, Axel Hoffmann, Michael Köhl, K. Gao
Abstract
Cold atom experiments commonly use broad magnetic Feshbach resonances to manipulate the interaction between atoms. In order to induce quantum dynamics by a change in the interaction strength, rapid (∼μs) magnetic field changes over several tens of Gauss are required. Here, we present a compact design of a coil and its control circuit for a change in the magnetic field up to 36 G in 3 µs. The setup comprises two concentric solenoids with minimal space requirements, which can be readily added to existing apparatuses. This design makes the observation of non-equilibrium physics with broad Feshbach resonances accessible.
Topics & Concepts
PhysicsElectromagnetic coilQuantumFeshbach resonanceAtomic physicsMagnetic fieldQuantum mechanicsMoleculeCold Atom Physics and Bose-Einstein CondensatesQuantum, superfluid, helium dynamicsAtomic and Subatomic Physics Research