Wavelength tunable fiber Bragg gratings fabricated by stress annealing assisted femtosecond laser direct writing

The resonant wavelength is an important parameter of fiber Bragg grating (FBG). When FBGs are fabricated by femtosecond (fs) laser direct writing, it can be fine-tuned through the process of stress annealing. By changing applied stress, it can be permanently fine-tuned in the range of 20.76 nm relative to the original one, and the tunable sensitivity is 1.48 nm/MPa. Besides, the elastic limit strength of silica can be measured at high temperature by analyzing nonlinear shift of FBG resonance wavelength during the stress annealing process. The temperature sensing properties of FBG are measured from 20 degrees C to 1150 degrees C. The sensitivity and high-temperature stability of FBG are improved after stress annealing, which means that the fine-tuned FBG is still suitable for high-temperature sensing, high-power fiber lasers and other high-temperature conditions.

Automated summary

The resonant wavelength of FBG can be fine-tuned through stress annealing, improving its temperature sensing properties and high-temperature stability.