↓ Skip to Main Content

Quantum matter from atomic gases

Main Navigation

  • Experiments
    • RbK: gauge fields
    • RbChip: open quantum systems
    • Rb|dЯ: When like meets like
  • Publications
  • Personnel
  • Locations

Dr. Francisco Salces-Carcoba defends his thesis!

Ian Spielman Posted on 2020/04/28 Posted in Group News, Personnel, RbChip
Dr. Francisco Salces-Carcoba defends his thesis!

On this day, April 6, 2020, Francisco Salces-Carcoba has (remotely) become Dr. ! Congratulations Paco!

Post navigation

Previous Post is ‹ Realization of a deeply subwavelength adiabatic optical lattice
Next Post is Creating solitons with controllable and near-zero velocity in Bose-Einstein condensates ›

Recent Posts

  • Dynamically Induced Symmetry Breaking and Out-of-Equilibrium Topology in a 1D Quantum System
    Dynamically Induced Symmetry Breaking and Out-of-Equilibrium Topology in a 1D Quantum System
  • Floquet Engineering Topological Dirac Bands
    Floquet Engineering Topological Dirac Bands
  • Combining machine learning with physics: A framework for tracking and sorting multiple dark solitons
    Combining machine learning with physics: A framework for tracking and sorting multiple dark solitons
  • Accurate Determination of Hubble Attenuation and Amplification in Expanding and Contracting Cold-Atom Universes
    Accurate Determination of Hubble Attenuation and Amplification in Expanding and Contracting Cold-Atom Universes
  • Dr. Shangjie Guo defends his thesis!
    Dr. Shangjie Guo defends his thesis!
  • Self-Bayesian aberration removal via constraints for ultracold atom microscopy
    Self-Bayesian aberration removal via constraints for ultracold atom microscopy
  • Feedback-stabilized dynamical steady states in the Bose-Hubbard model
    Feedback-stabilized dynamical steady states in the Bose-Hubbard model
  • Wilson loop and Wilczek-Zee phase from a non-Abelian gauge field
    Wilson loop and Wilczek-Zee phase from a non-Abelian gauge field
  • Quantum leap challenge institute for robust quantum simulation: funded!
    Quantum leap challenge institute for robust quantum simulation: funded!
  • Machine-learning enhanced dark soliton detection in Bose–Einstein condensates
    Machine-learning enhanced dark soliton detection in Bose–Einstein condensates

Organization

These experiments, overseen by PI I. B. Spielman, are part of the larger Laser Cooling and Trapping group at NIST and the JQI.

Administration

  • Log in
  • Entries feed
  • Comments feed
  • WordPress.org
© 2022 Quantum matter from atomic gases | Powered by Responsive Theme