# Ultra-low-noise supercontinuum generation with a flat near-zero normal   dispersion fiber

**Authors:** Shreesha Rao D. S., Rasmus D. Engelsholm, Iv\'an B. Gonzalo, Binbin, Zhou, Patrick Bowen, Peter M. Moselund, Ole Bang, and Morten Bache

arXiv: 1812.03877 · 2022-10-18

## TL;DR

This paper reports the design, fabrication, and experimental validation of a pure silica photonic crystal fiber with near-zero normal dispersion, enabling ultra-low-noise supercontinuum generation in the 1.34-1.82 μm range with high peak power.

## Contribution

The work introduces a specially designed fiber with tailored dispersion properties that achieves low-noise supercontinuum generation at high peak powers, validated by experiments and numerical modeling.

## Key findings

- Low relative intensity noise below 2.2% in the supercontinuum.
- Agreement between experimental results and numerical modeling.
- Potential to increase peak power to 26 kW before noise increases.

## Abstract

A pure silica photonic crystal fiber with a group velocity dispersion ($\beta_2$) of 4 ps$^2$/km at 1.55 $\mu$m and less than 7 ps$^2$/km from 1.32 $\mu$m to the zero dispersion wavelength (ZDW) 1.80 $\mu$m was designed and fabricated. The dispersion of the fiber was measured experimentally and found to agree with the fiber design, which also provides low loss below 1.83 $\mu$m due to eight outer rings with increased hole diameter. The fiber was pumped with a 1.55 $\mu$m, 125 fs laser and, at the maximum in-coupled peak power (P$_0$) of 9 kW, a 1.34$-$1.82 $\mu$m low-noise spectrum with a relative intensity noise below 2.2\% was measured. The numerical modeling agreed very well with the experiments and showed that P$_0$ could be increased to 26 kW before noise from solitons above the ZDW started to influence the spectrum by pushing high-noise dispersive waves through the spectrum.

## Full text

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## Figures

10 figures with captions in the complete paper: https://tomesphere.com/paper/1812.03877/full.md

## References

37 references — full list in the complete paper: https://tomesphere.com/paper/1812.03877/full.md

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Source: https://tomesphere.com/paper/1812.03877