Imaging three-dimensional single-atom arrays all at once
Abstract
Simultaneous imaging of a three-dimensional distribution of point sources is presented. In a two-lens microscope, the point-spreads on the quasi-image plane, which is located between the Fourier and image planes, are spatially distinct, so a set of Fresnel lenslets can perform individual wave-front shaping for axial and lateral rearrangements of the images. In experiments performed with single atoms and holographically programmed lenslets, various three-dimensional arrangements of point sources, including axially aligned atoms, are successfully refocused on the screen, demonstrating the simultaneous and time-efficient detection of the three-dimensional holographic imaging. We expect that non-sequential real-time measurements of three-dimensional point sources shall be in particular useful for quantum correlation measurements and in situ tracking of dynamic particles.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jan 25, 2021
- Source ID
- 10.1364/oe.415805
Entities
People
- Andrew Byun
- Haeun Sun
- Heejeong Jeong
- Jaewook Ahn
- Yunheung Song
Organizations
- Air Force Office of Scientific Research
- KAIST
- National Research Foundation of Korea
- Samsung Science and Technology Foundation (South Korea)
- Universiti Malaya
- University of Wisconsin–Madison