A novel mode-locked fiber laser rotation sensor: Experiment

10) are 0.766L179.1" and 0.743L -171.9", respectively, while the measured reflection coefficient is 0.763L -172.6' . The inversion process with water as medium 1 and a conductor as medium 2 indicates even slower convergence with respect to that of methanol. In this case, the permittivity of water w

A microwave photonic filter based on a structure of an actively mode-locked fiber laser is proposed. The mechanism and relation between the actively mode-locked fiber laser and the proposed microwave photonic filter are theoretically investigated and experimentally demonstrated. A microwave photonic

A sideband controllable erbium-doped fiber ring laser passively mode-locked by using the nonlinear polarization rotation technique is reported. In our fiber laser, spectral sideband generation or suppression can be easily achieved by properly rotating the polarization controllers. When the sideband

We characterize optical pulses generated using a regeneratively mode- ## Ž . locked fiber ring laser RML-FRL in terms of pulsewidth and pulse noise. These results are then compared with pulses obtained from a conventional Ž . active harmonically mode-locked fiber ring laser ML-FRL . We establish

## Abstract The performance of an actively mode‐locked fiber‐ring laser with large dispersion cavity is described. The laser output characteristics remain stable for long periods of time without external adjustment. The very stable, transform‐limited optical pulses at a repetition rate of 10 GHz we

We show what we believe is the first demonstration of an ytterbium-doped strictly all-fiber active mode-locking laser. The active control of the laser is based on in-fiber amplitude modulation at 11 MHz, which is achieved by using an all-fiber acoustooptic superlattice modulator driven by standing a