Jin Yu scite author profile

Most long-path remote spectroscopic studies of the atmosphere rely on ambient light or narrow-band lasers. High-power femtosecond laser pulses have been found to propagate in the atmosphere as dynamically self-guided filaments that emit in a continuum from the ultraviolet to the infrared. This white light exhibits a directional behavior with enhanced backward scattering and was detected from an altitude of more than 20 kilometers. This light source opens the way to white-light and nonlinear light detection and ranging applications for atmospheric trace-gas remote sensing or remote identification of aerosols. Air ionization inside the filaments also opens promising perspectives for laser-induced condensation and lightning control. The mobile femtosecond-terawatt laser system, Teramobile, has been constructed to study these applications.

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Kilometer-range nonlinear propagation of femtosecond laser pulses

Rodríguez

et al. 2004

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Ultrashort, high-power laser pulses propagating vertically in the atmosphere have been observed over more than 20 km using an imaging 2-m astronomical telescope. This direct observation in several wavelength bands shows indications for filament formation at distances as far as 2 km in the atmosphere. Moreover, the beam divergence at 5 km altitude is smaller than expected, bearing evidence for whole-beam parallelization about the nonlinear focus. We discuss implications for white-light Lidar applications.

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Long-distance remote laser-induced breakdown spectroscopy using filamentation in air

et al. 2004

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Multiple Filamentation of Terawatt Laser Pulses in Air

et al. 2004

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The filamentation of femtosecond light pulses in air is numerically and experimentally investigated for beam powers reaching several TW. Beam propagation is shown to be driven by the interplay between intense, robust spikes created by the defects of the input beam and random nucleation of light cells. Evolution of the filament patterns can be qualitatively reproduced by an averaged-in-time (2D+1)-dimensional model derived from the propagation equations for ultrashort pulses.

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Triggering and guiding megavolt discharges by use of laser-induced ionized filaments

et al. 2002

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We have demonstrated the ability to trigger and guide high-voltage discharges with ionized filaments generated by femtosecond terawatt laser pulses. The plasma filaments extended over the whole gap, providing a direct ohmic connection between the electrodes. Laser-guided straight discharges have been observed for gaps of as much as 3.8 m at a high voltage reduced to 68% of the natural breakdown voltage. The triggering efficiency was found to depend critically on the spatial connection of the laser filaments to the electrode as well as on the temporal coincidence of the laser with the peak of the high voltage.

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Teramobile: A mobile femtosecond-terawatt laser and detection system

et al. 2002

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International audienceWe describe the Teramobile system, a new mobile femtosecond multi-terawatt laser and detection system based on a state-of-the art CPA laser system embedded in a standard freight container, as well as a mobile detection unit allowing a characterization of the nonlinear propagation of high power laser pulses over long horizontal distances. The unique mobility feature of the whole system opens the way to previously unreachable applications for high-power laser pulses in the field of atmospheric research (lidar, laser-triggered lightning), which are also briefly reviewed

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Ultraintense light filaments transmitted through clouds

Courvoisier¹,

Boutou²,

Kasparian³

et al. 2003

143

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We demonstrate that ultrashort and ultraintense light filaments survive their interaction with water droplets as large as 95 μm and that they are transmitted through water clouds having an optical thickness as high as 3.2 (transmission 5%). In contrast with linear optics, this remarkable transmission through optically dense media results from a dynamic energy balance between the quasisolitonic structure and the surrounding laser photon bath, which acts as an energy reservoir. Implications for free-space laser communications, remote sensing, and telemetry are discussed.

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Electric events synchronized with laser filaments in thunderclouds

Kasparian¹,

Ackermann²,

André³

et al. 2008

Opt. Express

151

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Abstract:We investigated the possibility to trigger real-scale lightning using ionized filaments generated by ultrashort laser pulses in the atmosphere. Under conditions of high electric field during two thunderstorms, we observed a statistically significant number of electric events synchronized with the laser pulses, at the location of the filaments. This observation suggests that corona discharges may have been triggered by filaments. R. Fieux, C. Gary, and P. Hubert, "Artificially Triggered Lightning above Land," Nature 257, 212-214 (1975 199-202 (1999). 5.A. Braun, G. Korn, X. Liu, D. Du, J. Squier, and G. Mourou, "Self-channeling of high-peak-power femtosecond laser pulses in air," Opt. Lett. 20, 73-75 (1995

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Jin Yu

White-Light Filaments for Atmospheric Analysis

Kilometer-range nonlinear propagation of femtosecond laser pulses

Long-distance remote laser-induced breakdown spectroscopy using filamentation in air

Multiple Filamentation of Terawatt Laser Pulses in Air

Triggering and guiding megavolt discharges by use of laser-induced ionized filaments

Teramobile: A mobile femtosecond-terawatt laser and detection system

Ultraintense light filaments transmitted through clouds

Electric events synchronized with laser filaments in thunderclouds

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