Journal
JOURNAL OF LASER MICRO NANOENGINEERING
Volume 9, Issue 1, Pages 68-72Publisher
JAPAN LASER PROCESSING SOC
DOI: 10.2961/jlmn.2014.01.0014
Keywords
micron scale axicon; hybrid microoptical component; fiber tip microstructure; direct laser writing; multi-photon polymerization; hybrid photopolymers
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Funding
- European Social Fund Agency [VP1-3.1-SMM-10-V-02-007]
- Thales Program 3DSET [MIS 380278]
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A novel method to overcome the problem of accurately centering microoptical components built by direct laser writing on the tip of a single mode optical fiber is presented, and it includes employing mode field expansion. A hybrid microoptical component consisting of an aspherical and a conical lens integrated into a single monolithic element has been fabricated at the end-face of a fiber using the technique of direct laser writing of photopolymers. The optical performance of the fabricated microstructures has been measured experimentally. We show that optical properties of Gaussian and Bessel beams can be easily tuned by adjusting the geometrical parameters of fiber-tip microoptical elements. In addition, we experimentally demonstrate the increase of propagation distance of a Bessel beam five-fold, using the fabricated microoptical element. This improvement in the fabrication method of fiber-tip microoptical elements can be used in the manufacturing of integrated micro-optical devices for optical tweezing, laser micromachining and long focal depth optical systems.
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