MMAP - Materials and Manufacturing for Advanced Photonics
  • S. Kuebler (US) Chemistry Department and College of Optics, University of Central Florida

TuD3.3 - ROUTES TO NANOPHOTONIC DEVICES FOR MICRON-SCALE BEAM STEERING IN 3D

Presentation Type
Invited Submission
Authors
  • S. Kuebler (US) Chemistry Department and College of Optics, University of Central Florida
  • C. Xia (US) University of Central Florida
  • P. Golvari (US) University of Central Florida
  • R. Rumpf (US) University of Texas at El Paso
  • N. Martinez (US) University of Texas El Paso
  • M. Martinez (US) University of Texas El Paso
  • J. Gutierrez (US) University of Texas El Paso
  • J. Touma (US) Air Force Research Lab, Eglin AFB
  • H. Cheng (US) University of Central Florida
  • M. Sun (US) Kansas State University
  • M. Zhang (US) Kansas State University
  • X. Yu (US) University of Central Florida
Date
08/20/2019
Time
01:15 PM - 03:15 PM
Room
Emerald D
Duration
30 Minutes
Lecture Time
02:15 PM - 02:45 PM

Abstract

Abstract

Self-collimating spatially-variant lattices (SVLs) are integrated photonic devices that can be designed to steer optical beams in 3D within micron-scale volumes. SVLs can be fabricated by multi-photon lithography, and new routes to these and related devices are being explored based on modified Bessel beams.

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