Nonlocal bonding of a soliton and a blue-detuned state in a microcomb laser
Laser cavity-solitons can appear in a microresonator-filtered laser when judiciously
balancing the slow nonlinearities of the system. Under certain conditions, such optical states …
balancing the slow nonlinearities of the system. Under certain conditions, such optical states …
Real‐time investigation of ultrafast dynamics through time‐stretched dispersive fourier transform in mode‐locked fiber lasers
Real‐time investigation in mode‐locked fiber lasers (MLFLs) is important to understand the
ultrafast dynamics before, during, and after the formation of stable laser pulses. However …
ultrafast dynamics before, during, and after the formation of stable laser pulses. However …
Mastering femtosecond stimulated Raman spectroscopy: a practical guide
Femtosecond stimulated Raman spectroscopy (FSRS) is a powerful nonlinear spectroscopic
technique that probes changes in molecular and material structure with high temporal and …
technique that probes changes in molecular and material structure with high temporal and …
Synchronization, desynchronization, and intermediate regime of breathing solitons and soliton molecules in a laser cavity
We report on the experimental and numerical observations of synchronization and
desynchronization of bound states of multiple breathing solitons (breathing soliton …
desynchronization of bound states of multiple breathing solitons (breathing soliton …
Differential phase-diversity electrooptic modulator for cancellation of fiber dispersion and laser noise
Bandwidth and noise are fundamental considerations in all communication and signal
processing systems. The group-velocity dispersion of optical fibers creates nulls in their …
processing systems. The group-velocity dispersion of optical fibers creates nulls in their …
Controlling intracavity dual-comb soliton motion in a single-fiber laser
JA Lang, SR Hutter, A Leitenstorfer, G Herink - Science Advances, 2024 - science.org
Ultrafast science builds on dynamic compositions of precisely timed light pulses, and
evolving groups of pulses are observed in almost every mode-locked laser. However, the …
evolving groups of pulses are observed in almost every mode-locked laser. However, the …
Near-infrared spectroscopy of low-transmittance samples by a high-power time-stretch spectrometer using an arrayed waveguide grating (AWG)
H Kawagoe, H Sera, J Sahara, S Akai, K Watanabe… - Scientific Reports, 2023 - nature.com
Although time-stretch spectroscopy is an emerging ultrafast spectroscopic technique, the
applications in industrial fields have been limited due to the low output power caused by …
applications in industrial fields have been limited due to the low output power caused by …
Observation of optical chaotic solitons and modulated subharmonic route to chaos in mode-locked laser
H Kang, A Zhou, Y Zhang, X Wu, B Yuan… - arXiv preprint arXiv …, 2024 - arxiv.org
We reveal a new scenario for the transition of solitons to chaos in a mode-locked fiber laser:
the modulated subharmonic route. Its universality is confirmed in two different laser …
the modulated subharmonic route. Its universality is confirmed in two different laser …
Single-Photon Level Dispersive Fourier Transform: Ultrasensitive Characterization of Noise-Driven Nonlinear Dynamics
Dispersive Fourier transform is a characterization technique that allows directly extracting an
optical spectrum from a time domain signal, thus providing access to real-time …
optical spectrum from a time domain signal, thus providing access to real-time …
Control of spectral extreme events in ultrafast fiber lasers by a genetic algorithm
Extreme wave events or rogue waves (RWs) are both statistically rare and of exceptionally
large amplitude. They are observed in many complex systems ranging from oceanic and …
large amplitude. They are observed in many complex systems ranging from oceanic and …