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Higher-order-mode fiber optimized for energetic soliton propagation

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Abstract

We describe the design optimization of a higher-order-mode (HOM) fiber for energetic soliton propagation at wavelengths below 1300 nm. A new HOM fiber is fabricated according to our design criteria. The HOM fiber is pumped at 1045 nm by an energetic femtosecond fiber laser. The soliton self-frequency shift process shifts the center wavelength of the soliton to 1085 nm. The soliton has a temporal duration of 216 fs and a pulse energy of 6.3 nJ. The demonstrated pulse energy is approximately six times higher than the previous record in a solid core fiber at wavelengths below 1300 nm.

© 2012 Optical Society of America

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Corrections

Martin E. V. Pedersen, Ji Cheng, Kriti Charan, Ke Wang, Chris Xu, Lars Grüner-Nielsen, and Dan Jakobsen, "Higher-order-mode fiber optimized for energetic soliton propagation: erratum," Opt. Lett. 38, 3185-3185 (2013)
https://opg.optica.org/ol/abstract.cfm?uri=ol-38-16-3185

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