Dynamics of Large Femtosecond Filament Arrays: Possibilities, Limitations, and Trade-offs

Walasik, Wiktor; Litchinitser, Natalia M.

doi:10.1364/fio.2016.ftu3c.3

Cited by 2 publications

(2 citation statements)

References 33 publications

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“…Arrays of filaments have been shown to enable various guided-wave structures in the free space for visible 4 , infrared 5 , radio and microwave 6 – 8 frequency radiation, depending on their configuration. The generation of large arrays of filaments calls for phase manipulation of the laser pulses as well as precise engineering of intensity/phase distributions and the nonlinear beam interactions 8 – 14 .…”

Section: Introductionmentioning

confidence: 99%

Free-Space Nonlinear Beam Combining for High Intensity Projection

Fairchild

Walasik

Kepler

et al. 2017

Sci Rep

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The controlled interaction of two high intensity beams opens new degrees of freedom for manipulating electromagnetic waves in air. The growing number of applications for laser filaments requires fine control of their formation and propagation. We demonstrate, experimentally and theoretically, that the attraction and fusion of two parallel ultrashort beams with initial powers below the critical value (70% P critical), in the regime where the non-linear optical characteristics of the medium become dominant, enable the eventual formation of a filament downstream. Filament formation is delayed to a predetermined distance in space, defined by the initial separation between the centroids, while still enabling filaments with controllable properties as if formed from a single above-critical power beam. This is confirmed by experimental and theoretical evidence of filament formation such as the individual beam profiles and the supercontinuum emission spectra associated with this interaction.

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Section: Introductionmentioning

confidence: 99%

Free-Space Nonlinear Beam Combining for High Intensity Projection

Fairchild

Walasik

Kepler

et al. 2017

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…However, it is always anticipated for the realization of controllable field collapse and sequent filamentation, due to its practical applications, such as guiding microwave radiation [14], enhancement of terahertz emission [15], generation of millijoule-level supercontinuum in solid media [16], etc. For those purposes, some methods have been proposed by controlling the input power and divergence angle [17], shaping the field profile [18,19], using the amplitude/phase mask [20][21][22][23], and introducing the spatial regularization [24]. In fact, the above methods are to manipulate the spatial structure of scalar optical fields in phase and amplitude, whereas the spatial structure of polarization states was rarely involved.…”

Section: Introductionmentioning

confidence: 99%

Controlling optical field collapse by elliptical symmetry hybrid polarization structure

et al. 2018

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Engineering the diversity of the spatial structure of polarization states offers a new approach to produce controllable and designable filament patterns. Here we predict theoretically and demonstrate experimentally the novel collapsing behaviors of the optical fields by using the elliptical symmetry hybrid polarization structure in a self-focusing Kerr medium. The results reveal that the distribution of the hybrid polarization states, the spin angular momentum (SAM) gradient, and the collapsing patterns could be manipulated by changing the eccentricity, the topological charge, and the initial phase of the optical field. Owing to the synergy of the hybrid polarization states and its spatial symmetry, the collapsing behaviors are controllable, and have the robust feature insensitive to the random noise. Our idea may offer an alternative route to produce the controllable and robust multiple filamentation in other nonlinear systems, thereby facilitating the development of additional surprising applications.

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Dynamics of Large Femtosecond Filament Arrays: Possibilities, Limitations, and Trade-offs

Cited by 2 publications

References 33 publications

Free-Space Nonlinear Beam Combining for High Intensity Projection

Free-Space Nonlinear Beam Combining for High Intensity Projection

Controlling optical field collapse by elliptical symmetry hybrid polarization structure

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