project

STiMUL

Controlled Space-Time dynamics in nonlinear Multimode fiber with gain for the next generation of high power Ultrafast fiber Lasers
Open Access mandate for Publications European Commission
  • Funder: European CommissionProject code: 793405 Call for proposal: H2020-MSCA-IF-2017
  • Funded under: H2020 | MSCA-IF-EF-ST Overall Budget: 185,076 EURFunder Contribution: 185,076 EUR
  • Detailed project information (CORDIS)
  • Open Access mandate
    Research Data: No
Description
With the advent of ultrashort light pulses of picosecond/femtosecond durations, numerous novel applications and potential capabilities have emerged. However, ultrashort fiber laser must operate in a nonlinear propagation regime with a complex balance among gain, spectral filtering, dispersion and nonlinear broadening. Furthermore, all current families of ultrafast lasers are based on single mode fibers (SMFs) and these have now reached limits in their application domains because of their inherent limited peak power handling capability. In order to overcome the aforementioned barrier for ultrafast fiber lasers, and enhance their operational range, I suggest to re...
Description
With the advent of ultrashort light pulses of picosecond/femtosecond durations, numerous novel applications and potential capabilities have emerged. However, ultrashort fiber laser must operate in a nonlinear propagation regime with a complex balance among gain, spectral filtering, dispersion and nonlinear broadening. Furthermore, all current families of ultrafast lasers are based on single mode fibers (SMFs) and these have now reached limits in their application domains because of their inherent limited peak power handling capability. In order to overcome the aforementioned barrier for ultrafast fiber lasers, and enhance their operational range, I suggest to re...
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