CH(A) Radical Formation in Coulomb Explosion from Butane Seeded Plasma Generated with Chirp-Controlled Ultrashort Laser Pulses
Abstract
We experimentally studied the formation of CH(A) radicals in butane seeded plasma generated with chirp-controlled ultrashort laser pulses (\( 760 \, μ J/pulse\), 890 nm, 1 kHz, 8 fs). The focused beam with high peak intensity (\( 1014 - 1016 \, W/cm2\)) caused Coulomb explosion (CE). The time dependent emission spectra were observed with the Fourier-transform Visible spectroscopy (FTVis) step-scan method. The average signal intensity decreased with the chirp in the Ar\(+\) > C\(2\) > H-\(α\) \(\) CH(A) order with a plateau for CH(A) in the \(-200\) to \(-100 \, fs2\) range. The short rise time of the CH(A) emission signal, the monoexponential emission decay, and the nearly constant rotational and vibrational temperatures of the CH(A) radicals (\( 3000 \, K\) and \( 3800 \, K\)) all support their formation as a primary product. Our TDDFT calculations predict that CH and many other fragments can be formed beyond CE at \( 7 × 1014 \, W/cm2\) intensity. The average charge of CH (+0.6) and its relative abundance (0.5\%) support the formation of detectable CH(A) within 120 fs.
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