We show the intensity control of filamentation in fused silica by temporally shaping the femtosecond laser pulse.The arbitrary control of filamentation intensity has been obtained by the feedback control based on the ...We show the intensity control of filamentation in fused silica by temporally shaping the femtosecond laser pulse.The arbitrary control of filamentation intensity has been obtained by the feedback control based on the genetic algorithm,and the peak intensity of filament has changed from about 670 to around 2100(charge-coupled device counts).This modulation is in qualitative agreement with the simulation results.It is shown that the control of the intensity is realized by modulating the peak power of the shaped pulse.展开更多
基金supported by the National Natural Science Foundation of China(Nos.11774038,11874056,and 11474039)the Taishan Scholar Project of Shandong Province
文摘We show the intensity control of filamentation in fused silica by temporally shaping the femtosecond laser pulse.The arbitrary control of filamentation intensity has been obtained by the feedback control based on the genetic algorithm,and the peak intensity of filament has changed from about 670 to around 2100(charge-coupled device counts).This modulation is in qualitative agreement with the simulation results.It is shown that the control of the intensity is realized by modulating the peak power of the shaped pulse.
