Time-gated angular-spectrum characterization of fs-beam filamentation in water

Time-gated angular-spectrum characterization of fs-beam filamentation in water

We exploited the new gated angular spectrum (GAS) technique for characterising the complex non-linear dynamics of intense fs infrared pulses underlying beam filamentation in water. The measurements allowed us to discover that the axial white-light continuum and the off-axis coloured conical emission...

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Hauptverfasser: Bragheri, F., Liberale, C., Degiorgio, V., Faccio, D., Matijosius, A., Di Trapani, P., Tamosauskas, G., Varanavicius, A., Piskarskas, A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Electron traps
Frequency
Laboratories
Mathematics
Monitoring
Optical pulses
Pulse measurements
Spectroscopy
Ultrafast electronics
Wavelength measurement
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Beschreibung
Zusammenfassung:We exploited the new gated angular spectrum (GAS) technique for characterising the complex non-linear dynamics of intense fs infrared pulses underlying beam filamentation in water. The measurements allowed us to discover that the axial white-light continuum and the off-axis coloured conical emission (CCE) are generated by different temporal portions of the light filament, the red and blue-shifted continuum being produced at the trailing and leading edge, respectively, while CCE at the pulse center. Finally, by implementing a FROG type data analysis on the GAS scheme, we were able to retrieve the phase profile of the wave-packet too.
DOI:10.1109/CLEOE.2005.1568145