PROJECT TITLE :
High Fundamental-Repetition-Rate Bound Solitons in Carbon Nanotube-Based Fiber Lasers
We demonstrate bound solitons formation with a high elementary-repetition-rate of 211.eight MHz from an all-fiber linear-configuration mode-locked laser incorporating a carbon-nanotube-primarily based saturable absorber for the primary time. By adjusting the polarization state of laser cavity, certain solitons exhibit a large amendment of pulse separation in an exceedingly vary of 3.5–seventy three times longer than the pulsewidth, while the phase distinction of the tightly certain solitons switches between $pm pi /2$ . Numerical simulations make sure the experimental observations concerning the dependence of spectral profile of sure solitons on the pulse separation and therefore the phase distinction.
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