Abstract
Femtosecond laser pulses with sufficiently high peak power leave tracks of dilute plasma in their wakes. Potential use of this plasma for channeling electrical discharges in the atmosphere has been discussed and demonstrated in laboratory-scale experiments. However, the electron density in femtosecond laser-generated plasma decays rapidly on the nanosecond time scale, due to recombination and electron attachment to air molecules. The finite plasma lifetime limits the maximum extent of the guided electrical breakdown to a few meters. Here, we experimentally demonstrate that the limitation associated with the short plasma lifetime can be overcome though optical heating of the plasma filaments by an auxiliary energetic laser pulse with a duration in the nanosecond range. We show that the breakdown electric field can be reduced by up to a factor of 4 with a heater fluence of about 1 kJ/cm2. This approach could have applications in channeling long-range electrical discharges in the atmosphere and, potentially, in channeling lightning strikes.
Highlights
Using powerful laser beams for the guidance of the electrical breakdown of air and for channeling natural lightning has been discussed for many years
Plasma channels created in air that way are dense but not very long; a large fraction of the laser energy is lost to scattering on the plasma
A nanosecond-scale plasma lifetime in femtosecond laser filaments fundamentally limits the maximum length of guided electrical breakdown to a few meters
Summary
Using powerful laser beams for the guidance of the electrical breakdown of air and for channeling natural lightning has been discussed for many years. If the conductive plasma channel is discontinuous or not long enough to connect the electrodes, no ohmic heating of the weakly ionized air takes place and no guidance of electrical discharge happens.
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