Quantum Matter Synthesizer: Rearranging atoms in an optical lattice for quantum simulation
POSTER
Abstract
The Quantum Matter Synthesizer (QMS) quantum simulation apparatus combines a triangular optical lattice with a programmable tweezer array generated by a digital micromirror device (DMD). We aim to use the tweezers to rearrange atoms within the optical lattice into custom patterns in order to conduct Hubbard-type quantum simulations. We present the cooling and imaging schemes and our method of streaming tweezer potentials onto the atoms with the DMD. We also discuss future experiments in which we will use the QMS as a node of a quantum network.
Publication: Trisnadi, J., Zhang, M., Weiss, L., & Chin, C. (2022). Design and construction of a quantum matter synthesizer. Review of Scientific Instruments, 93(8).
Presenters
-
Lauren S Weiss
University of Chicago
Authors
-
Lauren S Weiss
University of Chicago
-
Mingjiamei Zhang
University of Chicago
-
Evan P Yamaguchi
University of Chicago
-
Tadej Meznarsic
University of Chicago
-
Cheng Chin
University of Chicago