O. V. Minina scite author profile

O. V. Minina

3Publications

10Citation Statements Received

0Citation Statements Given

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Affiliations

V.E. Zuev Institute of Atmospheric Optics, Russian Academy of Sciences, National Research Tomsk State University

Publications

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Nonlinear Propagation and Filamentation on 100 Meter Air Path of Femtosecond Beam Partitioned by Wire Mesh

Geints

Minina

Geints

et al. 2022

Sensors

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High-intensity (∼1 TW/cm2 and higher) region formed in the propagation of ∼60 GW, 90 fs Ti:Sapphire laser pulse on a ∼100 m path in air spans for several tens of meters and includes a plasma filament and a postfilament light channel. The intensity in this extended region is high enough to generate an infrared supercontinuum wing and to initiate laser-induced discharge in the gap between the electrodes. In the experiment and simulations, we delay the high-intensity region along the propagation direction by inserting metal-wire meshes with square cells at the laser system output. We identify the presence of a high-intensity region from the clean-spatial-mode distributions, appearance of the infrared supercontinuum wing, and occurrence of the laser-induced discharge. In the case of free propagation (without any meshes), the onset of the high-intensity zone is at 40–52 m from the laser system output with ∼30 m extension. Insertion of the mesh with 3 mm cells delays the beginning of the high-intensity region to 49–68 m with the same ∼30 m extension. A decrease in the cell size to 1 mm leads to both delay and shrinking of the high-intensity zone to 71–73 m and 6 m, respectively. Three-dimensional simulations in space confirm the mesh-induced delay of the high-intensity zone as the cell size decreases.

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Dynamics of light structures during filamentation of femtosecond laser pulses in air

et al. 2016

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Simulation of Self-Focusing of Femtosecond Laser Pulses in Air by the Method of Diffraction-Beam Tubes

2019

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O. V. Minina

Nonlinear Propagation and Filamentation on 100 Meter Air Path of Femtosecond Beam Partitioned by Wire Mesh

Dynamics of light structures during filamentation of femtosecond laser pulses in air

Simulation of Self-Focusing of Femtosecond Laser Pulses in Air by the Method of Diffraction-Beam Tubes

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