Creating and imaging atomic wave functions beyond the diffraction limit

Tsz-Chun Tsui; Sarthak Subhankar; Yang Wang; Przemyslaw Bienias; Mateusz Lacki; Mikhail Baranov; Alexey Gorshkov; Peter Zoller; James V Porto; Steven L Rolston

Creating and imaging atomic wave functions beyond the diffraction limit

POSTER

Abstract

In cold atom experiments, the application of optical fields is the cornerstone for the manipulation and imaging of atoms. The wavelength of the light field sets a limit on the size of features that can be resolved. To beat this diffraction limit, we exploit the non-linear optical response of a three-level atom coupled by two light fields and create ultra-narrow potential barriers with widths less than lambda/50, physically realizing a Kronig-Penney potential. We also demonstrate a new imaging technique for probing the wavefunction of atoms trapped in an optical lattice with a spatial resolution of lambda/50 and a sub-microsecond temporal resolution, thereby introducing super-resolution microscopy to the field of cold atom systems. With this technique, we study the static and dynamic properties of the wavefunctions of atoms in the unit cell of an optical lattice.

^*Supported by NSF PFC at JQI (PHY1430094) and ONR (N000141712411).

Presenters

Tsz-Chun Tsui
- Joint Quantum Institute, University of Maryland at College Park and NIST

Authors

Tsz-Chun Tsui
- Joint Quantum Institute, University of Maryland at College Park and NIST
Sarthak Subhankar
- Joint Quantum Institute, University of Maryland at College Park and NIST
Yang Wang
- Joint Quantum Institute, University of Maryland and NIST
- Joint Quantum Institute, University of Maryland at College Park and NIST
Przemyslaw Bienias
- Joint Quantum Institute, University of Maryland at College Park and NIST
Mateusz Lacki
- Jagiellonian University, Institute of Physics
Mikhail Baranov
- Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences, Institute for Theoretical Physics, University of Innsbruck
Alexey Gorshkov
- Joint Quantum Institute, University of Maryland at College Park and NIST
Peter Zoller
- Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences, Institute for Theoretical Physics, University of Innsbruck
James V Porto
- Joint Quantum Institute, University of Maryland at College Park and NIST
Steven L Rolston
- Joint Quantum Institute, University of Maryland at College Park and NIST