Advanced search

Filter By:

Journal Check one or more journals to show results from those journals only.

Choose more journals

Article type Check one or more article types to show results from those article types only.
Subject Check one or more subjects to show results from those subjects only.
Date Choose a date option to show results from those dates only.

Custom date range

Clear all filters
Sort by:
Showing 1–10 of 10 results
Advanced filters: Author: Bryce Gadway Clear advanced filters

  • The Su-Schrieffer-Heeger model describes a system that supports topological excitations. Here the authors simulate this model using87Rb atoms in a momentum-space lattice, observing the localized topological soliton state via quench dynamics, phase-sensitive injection and adiabatic preparation.

    • Eric J. Meier
    • Fangzhao Alex An
    • Bryce Gadway
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-6

  • The effect of strong interactions on the physics hosted by flat bands remains largely unexplored in atomic systems. An experiment in a synthetic flat-band lattice now demonstrates an interaction-driven transition from localization to delocalization.

    • Tao Chen
    • Chenxi Huang
    • Bryce Gadway
    ResearchOpen Access
    Nature Physics
    Volume: 21, P: 221-227

  • Isolated gases of ultracold atoms have long provided a window into the study of continuous quantum phase transitions. Discontinuous quantum phase transitions have now been observed in a shaken lattice gas of strongly interacting atoms.

    • Bryce Gadway
    News & Views
    Nature Physics
    Volume: 18, P: 231-232

  • Cold atom quantum simulation has had challenges in realising the tailored, dynamic types of disorder relevant to real materials. Here, the authors use synthetic momentum-space lattices to engineer spatially and dynamically controlled disorder to observe ballistic, diffusive, and arrested atomic transport.

    • Fangzhao Alex An
    • Eric J. Meier
    • Bryce Gadway
    ResearchOpen Access
    Nature Communications
    Volume: 8, P: 1-6

  • Diffraction of matter waves from crystalline structures has long been used to characterize underlying spatial order. The same principle offers a valuable—and potentially non-destructive—tool for probing the strongly correlated phases of ultracold atoms confined to optical lattices.

    • Bryce Gadway
    • Daniel Pertot
    • Dominik Schneble
    Research
    Nature Physics
    Volume: 8, P: 544-549

  • The common probes for cold atoms systems are typically global and do not provide direct information on the local spatial structure of states, limiting the insight on disordered and quasiperiodic systems. The authors demonstrate a local probe able to distinguish metallic and insulating states in an energy-resolved manner.

    • Sai Naga Manoj Paladugu
    • Tao Chen
    • Bryce Gadway
    ResearchOpen Access
    Communications Physics
    Volume: 7, P: 1-8