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Low noise, self-phase-modulation-enabled femtosecond fiber sources tunable in 740-1236 nm for wide two-photon fluorescence microscopy applications

Lu-Ting Chou, Yucheng Liu, Dong-Lin Zhong, Wei‐Zhong Lin, Hao-Hsuan Hung, Chao-Jin Chan, Zi-Ping Chen, Shih‐Hsuan Chia

2021Biomedical Optics Express22 citationsDOIOpen Access PDF

Abstract

We have demonstrated widely tunable Yb:fiber-based laser sources, aiming to replace Ti:sapphire lasers for the nJ-level ultrafast applications, especially for the uses of nonlinear light microscopy. We investigated the influence of different input parameters to obtain an expansive spectral broadening, enabled by self-phase modulation and further reshaped by self-steepening, in the normal dispersion regime before the fiber damage. We also discussed the compressibility and intensity fluctuations of the demonstrated pulses, to reach the transform-limited duration with a very low intensity noise. Most importantly, we have demonstrated clear two-photon fluorescence images from UV-absorbing fluorophores to deep red dye stains.

Topics & Concepts

FemtosecondMaterials scienceOpticsUltrashort pulseMicroscopySelf-phase modulationLaserOptoelectronicsFiber laserPhoton countingSapphirePhotonNonlinear opticsPhysicsAdvanced Fiber Laser TechnologiesLaser-Matter Interactions and ApplicationsPhotonic Crystal and Fiber Optics
Low noise, self-phase-modulation-enabled femtosecond fiber sources tunable in 740-1236 nm for wide two-photon fluorescence microscopy applications | Litcius