Add to ORKGWe put forward a powerful technique that allows generating quasi-non-diffracting light beams with a variety of complex transverse shapes and topologies. We show that, e.g., spi-raling patterns, patterns featuring curved or bent bright stripes, or patterns featuring arbi-trary combinations of harmonic, Bessel, Mathieu and parabolic beams occupying different domains in the transverse plane can be produced. The quasi-non-diffracting patterns open up a wealth of opportunities for the manipulation of matter and optical waves, colloidal and living particles, with applications in biophysics, and quantum, nonlinear and atom optics
Wavelength is a fundamental property of light that dictates its linear momentum and thus remains unc...
We present a simple experiment by which a student can generate and study a zeroth-order Bessel beam....
We present an intuitive and versatile method that can dynamically generate 2D and 3D tailored light ...
Due to their unique ability to maintain an intensity distribution upon propagation, non-diffracting ...
We present a new concept for the generation of optical lattice waves. For all four families of nondi...
We introduce stripe-like quasi-nondiffracting lattices that can be generated via spatial spectrum en...
We show that with the quasi-phase-matching technique it is possible to fabricate stripes of nonlinea...
We present an overview of our recent results in the area of soliton excitation and control in optica...
We introduce a general approach for generation of sets of three-dimensional quasi-nonspreading wave ...
research multiplexed patterns were formed that The electric field representing an nth-order Bessel c...
The study of spatial dispersion of two-dimensional complex crystals, with periodic modulations of bo...
`Quasi-mosaicity' is an effect of anisotropy in crystals that permits one to obtain a curvature of i...
Light beams with unusual forms of wavefront offer a host of useful features to extend the repertoire...
<p> Light beams undergoing optical Bloch oscillations (OBOs) in two-dimensional (2D) photonic latti...
Wide application of the laser beams in science, technology and biomedicine demands the generation of...
Wavelength is a fundamental property of light that dictates its linear momentum and thus remains unc...
We present a simple experiment by which a student can generate and study a zeroth-order Bessel beam....
We present an intuitive and versatile method that can dynamically generate 2D and 3D tailored light ...
Due to their unique ability to maintain an intensity distribution upon propagation, non-diffracting ...
We present a new concept for the generation of optical lattice waves. For all four families of nondi...
We introduce stripe-like quasi-nondiffracting lattices that can be generated via spatial spectrum en...
We show that with the quasi-phase-matching technique it is possible to fabricate stripes of nonlinea...
We present an overview of our recent results in the area of soliton excitation and control in optica...
We introduce a general approach for generation of sets of three-dimensional quasi-nonspreading wave ...
research multiplexed patterns were formed that The electric field representing an nth-order Bessel c...
The study of spatial dispersion of two-dimensional complex crystals, with periodic modulations of bo...
`Quasi-mosaicity' is an effect of anisotropy in crystals that permits one to obtain a curvature of i...
Light beams with unusual forms of wavefront offer a host of useful features to extend the repertoire...
<p> Light beams undergoing optical Bloch oscillations (OBOs) in two-dimensional (2D) photonic latti...
Wide application of the laser beams in science, technology and biomedicine demands the generation of...
Wavelength is a fundamental property of light that dictates its linear momentum and thus remains unc...
We present a simple experiment by which a student can generate and study a zeroth-order Bessel beam....
We present an intuitive and versatile method that can dynamically generate 2D and 3D tailored light ...