Flexible femtosecond inscription of fiber Bragg gratings by an optimized deformable mirror

Thorsten A. Goebel; Christian Voigtländer; Ria G. Krämer; Daniel Richter; Maximilian Heck; Malte P. Siems; Christian Matzdorf; Claudia Reinlein; Michael Appelfelder; Thomas Schreiber; Jens U. Thomas; Andreas Tünnermann; Stefan Nolte

doi:10.1364/OL.42.004215

Optics Letters
Vol. 42,
Issue 20,
pp. 4215-4218
(2017)
•https://doi.org/10.1364/OL.42.004215

Flexible femtosecond inscription of fiber Bragg gratings by an optimized deformable mirror

Thorsten A. Goebel, Christian Voigtländer, Ria G. Krämer, Daniel Richter, Maximilian Heck, Malte P. Siems, Christian Matzdorf, Claudia Reinlein, Michael Appelfelder, Thomas Schreiber, Jens U. Thomas, Andreas Tünnermann, and Stefan Nolte

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Thorsten A. Goebel, Christian Voigtländer, Ria G. Krämer, Daniel Richter, Maximilian Heck, Malte P. Siems, Christian Matzdorf, Claudia Reinlein, Michael Appelfelder, Thomas Schreiber, Jens U. Thomas, Andreas Tünnermann, and Stefan Nolte, "Flexible femtosecond inscription of fiber Bragg gratings by an optimized deformable mirror," Opt. Lett. 42, 4215-4218 (2017)

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Table of Contents Category
- Fiber Optics and Optical Communications
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About this Article
History
- Original Manuscript: August 18, 2017
- Revised Manuscript: September 13, 2017
- Manuscript Accepted: September 19, 2017
- Published: October 13, 2017

Abstract

The period of fiber Bragg gratings is adapted by shaping the wavefronts of ultrashort laser pulses applied in a phase mask inscription technique. A specially designed deformable mirror, based on a dielectric substrate to withstand high peak powers, is utilized to deform the wavefront. A shift of about 11 nm is demonstrated for a Bragg wavelength around 1550 nm.

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Optics Letters