All-fiberized 1840-nm femtosecond thulium fiber laser for label-free nonlinear microscopy

Duanyang Xu; Konstantinos N Bourdakos; Anna Crisford; Peter Johnson; Ibrahim Abughazaleh; Panuwat Srisamran; Richard O C Oreffo; Sumeet Mahajan; David J Richardson; Lin Xu

doi:10.1364/BOE.495879

All-fiberized 1840-nm femtosecond thulium fiber laser for label-free nonlinear microscopy

Biomed Opt Express. 2023 Aug 9;14(9):4520-4530. doi: 10.1364/BOE.495879. eCollection 2023 Sep 1.

Authors

Duanyang Xu¹, Konstantinos N Bourdakos^{2

3}, Anna Crisford^{2

3}, Peter Johnson^{2

3

4}, Ibrahim Abughazaleh^{2

3}, Panuwat Srisamran¹, Richard O C Oreffo^{2

4}, Sumeet Mahajan^{2

3}, David J Richardson¹, Lin Xu¹

Affiliations

¹ Optoelectronics Research Centre, University of Southampton, Southampton, SO17 1BJ, UK.
² Institute for Life Sciences, University of Southampton, Southampton, SO17 1BJ, UK.
³ School of Chemistry, University of Southampton, Southampton, SO17 1BJ, UK.
⁴ Human Development Health, Faculty of Medicine, Southampton, SO16 6YD, UK.

Abstract

We report an all-fiberized 1840-nm thulium-fiber-laser source, comprising a dissipative-soliton mode-locked seed laser and a chirped-pulse-amplification system for label-free biological imaging through nonlinear microscopy. The mode-locked thulium fiber laser generated dissipative-soliton pulses with a pre-chirped duration of 7 ps and pulse energy of 1 nJ. A chirped-pulse fiber-amplification system employing an in-house-fabricated, short-length, single-mode, high-absorption, thulium fiber delivered pulses with energies up to 105 nJ. The pulses were capable of being compressed to 416 fs by passing through a grating pair. Imaging of mouse tissue and human bone samples was demonstrated using this source via third-harmonic generation microscopy.

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