We demonstrate that electric discharges can be laser guided along curved paths, avoiding obstacles in the line of sight. Furthermore we show that discharges guided by Airy beams have the ability to self heal in case of interruption. © OSA 2014
We present, in theory and experiment, a class of non-diffracting and self-healing optical beams whos...
Plasma channel generation (or filamentation) using ultraintense laser pulses in dielectric media has...
Recently, a specific type of nondiffracting beams named self-accelerating Airy beams has attracted a...
We demonstrate that electric discharges can be laser guided along curved paths, avoiding obstacles i...
We demonstrate that electric discharges can be laser guided along curved paths, avoiding obstacles i...
We report laser-guided electric discharges along curved trajectories, and hence around obstacles in ...
We report laser-guided electric discharges along curved trajectories, and hence around obstacles in ...
Electric breakdown in air occurs for electric fields exceeding 34 kV/cm and results in a large curre...
Electric breakdown in air occurs for electric fields exceeding 34 kV/cm and results in a large curre...
We report the first observation of self-reconstructing Airy optical beams. It is demonstrated that t...
An optical beam is said to be self-healing when, distorted by an obstacle, the beam corrects itself ...
The ability of Airy light beams to transport microparticles along curved, self-healed paths may lead...
The common intuition of light propagating along a straight path was challenged by the discovery of t...
We analytically calculate the transverse energy fluxes induced in high-power Airy beams by the Kerr ...
Control of electrical discharge paths would allow several technological applications, but it usually...
We present, in theory and experiment, a class of non-diffracting and self-healing optical beams whos...
Plasma channel generation (or filamentation) using ultraintense laser pulses in dielectric media has...
Recently, a specific type of nondiffracting beams named self-accelerating Airy beams has attracted a...
We demonstrate that electric discharges can be laser guided along curved paths, avoiding obstacles i...
We demonstrate that electric discharges can be laser guided along curved paths, avoiding obstacles i...
We report laser-guided electric discharges along curved trajectories, and hence around obstacles in ...
We report laser-guided electric discharges along curved trajectories, and hence around obstacles in ...
Electric breakdown in air occurs for electric fields exceeding 34 kV/cm and results in a large curre...
Electric breakdown in air occurs for electric fields exceeding 34 kV/cm and results in a large curre...
We report the first observation of self-reconstructing Airy optical beams. It is demonstrated that t...
An optical beam is said to be self-healing when, distorted by an obstacle, the beam corrects itself ...
The ability of Airy light beams to transport microparticles along curved, self-healed paths may lead...
The common intuition of light propagating along a straight path was challenged by the discovery of t...
We analytically calculate the transverse energy fluxes induced in high-power Airy beams by the Kerr ...
Control of electrical discharge paths would allow several technological applications, but it usually...
We present, in theory and experiment, a class of non-diffracting and self-healing optical beams whos...
Plasma channel generation (or filamentation) using ultraintense laser pulses in dielectric media has...
Recently, a specific type of nondiffracting beams named self-accelerating Airy beams has attracted a...
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