Four-wave mixing seeded by a rapid wavelength-sweeping FDML laser for nonlinear imaging at 900 nm and 1300 nm

Abstract: Four-wave mixing (FWM) enables the generation and amplification of light in spectral regions where suitable fiber gain media are unavailable. The 1300 nm and 900 nm regions are of especially high interest for time-encoded (TICO) stimulated Raman scattering microscopy and spectro-temporal laser imaging by diffracted excitation (SLIDE) two-photon microscopy. We present a new, to the best of our knowledge, FWM setup where we shift the power of a home-built fully fiber-based master oscillator power amplifier (MOPA… Show more

“…A Watt level tunable single pass sources have shown tunability from 620 nm to 900 nm [8]. At lower powers, narrow band seeded FWM sources have been shown [9], [10]. Tunable Fiber based optical parametric oscillators have been used to more generate visible to MIR light with pulsed systems with watt level power [11]- [13].…”

All-spliced 11.3 W four-wave mixing fiber source at 760 nm

“…A Watt level tunable single pass sources have shown tunability from 620 nm to 900 nm [8]. At lower powers, narrow band seeded FWM sources have been shown [9], [10]. Tunable Fiber based optical parametric oscillators have been used to more generate visible to MIR light with pulsed systems with watt level power [11]- [13].…”

All-spliced 11.3 W four-wave mixing fiber source at 760 nm