Superposition- and interference-induced optical spectrum distortion in the figure-9 fiber laser (2410.20656v1)

Abstract: The spectrum of the output pulses from the figure-9 laser typically exhibits more distortion than the spectra from mode-locked lasers based on other saturable absorbers and the spectrum of its intracavity pulses. Here, we demonstrate two figure-9 lasers with repetition rates of 190.6 MHz and 92.4 MHz and introduce the self-designed beam splitter with little spectral impact in the fiber loop to output two interference-free pulses. By numerically processing the spectra of these two pulses, the formation mechanisms of specific spectral features are determined, and the features are consistent with the experimental spectral features of the pulses from the other two ports. Furthermore, by analyzing the pulse propagation of lasers through the interference theory of the figure-9 laser, it is found that the superposition and interference of spectra at the two output ports of the linear arm are the reasons for the severe spectral distortion, rather than the commonly believed nonlinear effects. On the beam splitter where interference occurs, the $p$-components of the two intracavity light beams always interferes with equal intensity, while the $s$-components usually interfere with non-equal intensity, resulting in a large but stable spectral difference between the pulses inside the cavity and the output pulses. These findings can provide new perspectives for simulating spectra that closely resemble experimental results and deepen our understanding of spectral evolution and pulse dynamics of the figure-9 laser.