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Holographic photopolymers can be cast onto and around other optical elements, then patterned with a 3D routed waveguide to form hybrid integrated photonics. ��While multi-photon initiation can be used to improve localization of the written feature, we have explored single-photon initiation due to its greater control at lower laser power and higher write speed. ��For example, a milliwatt laser focus translated through the����3D volume of a holographic photopolymer writes an optical waveguide with a cross section related to the size, shape, speed and velocity of the laser focus. ��These variables��allow the waveguide to be arbitrarily routed, tapered and shaped��along its path to implement mode transformations between encapsulated subcomponents. ��We have also created intererence lithography systems capable of creating large 2D��arrays of parallel waveguides and 3D printers that can fabricate arbitrary waveguide arrays layer by layer.

The team

Learn more

• D. J. Glugla, M. B. Chosy, M. D. Alim, A. C. Sullivan, R. R. McLeod, “,”��Optics Express 26, pp. 1851-1869, 2018
• C. Ye, K. T. Kamysiak, A. C. Sullivan, R. R. McLeod,��, Optics Express 20, 6575-6583, 2012.
• A. C. Sullivan, M. W. Grabowski, R. R. McLeod,��, Applied Optics 46, 295-301, 2007.
• Amy C. Sullivan, Doctor of Philosophy in Physics,��, University of Colorado, 2008.
• Charles D. Anderson, Master of Science in Electrical Engineering,��, University of Colorado, 2006.

This work has been generously funded by

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