Theory of quantum systems

Hubbard models and state preparation in an optical Lieb lattice

New Journal of Physics IOP Publishing 23:8 (2021) 083014

Authors:

S Flannigan, L Madail, RG Dias, AJ Daley

One-dimensional Kronig–Penney superlattices at the LaAlO3/SrTiO3 interface

Nature Physics Springer Nature 17:7 (2021) 782-787

Authors:

Megan Briggeman, Hyungwoo Lee, Jung-Woo Lee, Kitae Eom, François Damanet, Elliott Mansfield, Jianan Li, Mengchen Huang, Andrew J Daley, Chang-Beom Eom, Patrick Irvin, Jeremy Levy

Deterministic Fast Scrambling with Neutral Atom Arrays.

Physical review letters 126:20 (2021) 200603

Authors:

Tomohiro Hashizume, Gregory S Bentsen, Sebastian Weber, Andrew J Daley

Abstract:

Fast scramblers are dynamical quantum systems that produce many-body entanglement on a timescale that grows logarithmically with the system size N. We propose and investigate a family of deterministic, fast scrambling quantum circuits realizable in near-term experiments with arrays of neutral atoms. We show that three experimental tools-nearest-neighbor Rydberg interactions, global single-qubit rotations, and shuffling operations facilitated by an auxiliary tweezer array-are sufficient to generate nonlocal interaction graphs capable of scrambling quantum information using only O(logN) parallel applications of nearest-neighbor gates. These tools enable direct experimental access to fast scrambling dynamics in a highly controlled and programmable way and can be harnessed to produce highly entangled states with varied applications.

Deterministic Fast Scrambling with Neutral Atom Arrays

(2021)

Authors:

Tomohiro Hashizume, Gregory Bentsen, Sebastian Weber, Andrew J Daley

Hubbard models and state preparation in an optical Lieb lattice

(2021)

Authors:

Stuart Flannigan, Luisa Madail, Ricardo G Dias, Andrew J Daley