New Journal of Physics (Jan 2021)

Magneto-optical trapping using planar optics

  • William R McGehee,
  • Wenqi Zhu,
  • Daniel S Barker,
  • Daron Westly,
  • Alexander Yulaev,
  • Nikolai Klimov,
  • Amit Agrawal,
  • Stephen Eckel,
  • Vladimir Aksyuk,
  • Jabez J McClelland

DOI
https://doi.org/10.1088/1367-2630/abdce3
Journal volume & issue
Vol. 23, no. 1
p. 013021

Abstract

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Laser-cooled atoms are a key technology for many calibration-free measurement platforms—including clocks, gyroscopes, and gravimeters—and are a promising system for quantum networking and quantum computing. The optics and vacuum hardware required to prepare these gases are often bulky and not amenable to large-volume manufacturing, limiting the practical realization of devices benefiting from the properties of cold atoms. Planar, lithographically produced optics including photonic integrated circuits, optical metasurfaces (MSs), and gratings offer a pathway to develop chip-scale, manufacturable devices utilizing cold atoms. As a demonstration of this technology, we have realized laser cooling of atomic Rb in a grating-type magneto-optical trap (MOT) using planar optics for beam launching, beam shaping, and polarization control. Efficient use of available light is accomplished using MS-enabled beam shaping, and the performance of the planar optics MOT is competitive with Gaussian-beam illuminated grating MOTs.

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