Zachary N. Hardesty-Shaw, Qingze Guan, Jared O. Austin, Doerte Blume, Robert J. Lewis-Swan, Yingmei Liu
Published 2023-01-06Version 1
The isolation and control of disparate degrees of freedom underpin quantum simulators. We advance the programmability of cold atom quantum simulators with a first realization of the dynamic interplay of spatial and spin degrees of freedom. We experimentally demonstrate that violent spatial evolutions tune long-lived coherent spin dynamics and develop a model of quantum spin-mixing incorporating the spatial evolution via time-dependent spin-spin interactions. Our results open new paths towards the simulation of quantum spin models with tunable interactions via tailored spatial dynamics.
Making an ultracold gas
Transport of mixed ultracold atoms at the S and D band in a moving optical lattice
An Ultracold Gas of Bosonic $^{23}\textrm{Na}^{39}\textrm{K}$ Ground-State Molecules
![QR code for arXiv:2301.02707 [cond-mat.quant-gas]](http://oss.arxitics.com/images/favicon.svg)