Filamentation occurs within a 1.5 cm-long crystal of BaF2 during the propagation of intense, ultrashort (40 fs) pulses of 800 nm light; a systematic study as a function of incident power enables us to extract quantitative information on laser intensity within the condensed medium, the electron density and the six-photon absorption cross section. At low incident power, a single filament is formed within the crystal; two or more filaments are observed along the direction transverse to laser propagation at higher incident powers. Further, due to fluorescence from six-photon absorption (6PA), we are able to map the intensity variation in the focusing-refocusing cycles along the direction of laser propagation. At still higher incident powers, we observe splitting of multiple filaments. By measuring the radius (L min∈) of single filament inside BaF2, we obtain estimates of peak intensities (I max∈) and electron densities (ρ max∈) to be 3.26×1013 W∈cm -2 and 2.81×1019 cm-3, respectively. Use of these values enables us to deduce that the 6PA cross-section in BaF 2 is 0.33×10-70 cm12∈W -6∈s-1. © 2008 Springer-Verlag.
CITATION STYLE
Dharmadhikari, A. K., Dharmadhikari, J. A., & Mathur, D. (2009). Visualization of focusing-refocusing cycles during filamentation in BaF2. Applied Physics B: Lasers and Optics, 94(2), 259–263. https://doi.org/10.1007/s00340-008-3317-7
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