Abstract
The electron energies were measured to investigate the influences of laser intensity and wavelength on the ion charge state distribution of Cq+ (q=2–4) when benzene clusters were irradiated by 109–1011W/cm2 nanosecond laser pulses. The results show that the ratios of Cq+/C(q−1)+ strongly depend on laser wavelength but slightly on laser intensity. The mean electron energy up to 100eV was measured, which was qualitatively consisted with the ‘multiphoton ionization ignition-inverse bremsstrahlung heating-electron impact ionization’ three-stage model. The screening effects inside clusters can significantly decrease the ionization potentials of Cq+ and facilitate the formation of multiply charged ions especially at low laser intensity.
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