Add to ORKGWe show that complex PT-symmetric photonic lattices can lead to a new class of self-imaging Talbot effects. For this to occur, we find that the input field pattern has to respect specific periodicities dictated by the symmetries of the system. While at the spontaneous PT-symmetry breaking point the image revivals occur at Talbot lengths governed by the characteristics of the passive lattice, at the exact phase it depends on the gain and loss parameter, thus allowing one to control the imaging process
The Talbot effect, also referred to as self-imaging or lensless imaging, is of the phenomena manifes...
The effects of discrete Talbot revivals in waveguide arrays was analyzed. Talbot self-imaging effect...
We report the first experimental observation of optical solitons in PT-symmetric temporal lattices. ...
We show that complex PT-symmetric photonic lattices can lead to a new class of self-imaging Talbot e...
The Talbot effect, i.e., the self-imaging property of a periodic wave in near-field diffraction, is ...
After realizing the counterintuitive fact that PT-symmetric Hamiltonians can exhibit entirely real s...
PT-symmetric optical structures represent a new generation of artificial optical systems which utili...
We discuss the discrete Talbot effect in one- and two-dimensional waveguide lattices under the influ...
We report the first observation of discrete Talbot revivals in one-dimensional waveguide arrays. Unl...
Light propagation in periodic environments is often associated with a number of interesting and pote...
We report the first observation of discrete Talbot revivals in one-dimensional waveguide arrays. Unl...
Beam dynamics in synthetic optical media with PT symmetries imposed by a balanced arrangement of ga...
In quantum theory, any Hamiltonian describing a physical system is mathematically represented by a s...
In quantum theory, any Hamiltonian describing a physical system is mathematically represented by a s...
Photonic mesh lattices provide a versatile experimental platform for studying light propagation in a...
The Talbot effect, also referred to as self-imaging or lensless imaging, is of the phenomena manifes...
The effects of discrete Talbot revivals in waveguide arrays was analyzed. Talbot self-imaging effect...
We report the first experimental observation of optical solitons in PT-symmetric temporal lattices. ...
We show that complex PT-symmetric photonic lattices can lead to a new class of self-imaging Talbot e...
The Talbot effect, i.e., the self-imaging property of a periodic wave in near-field diffraction, is ...
After realizing the counterintuitive fact that PT-symmetric Hamiltonians can exhibit entirely real s...
PT-symmetric optical structures represent a new generation of artificial optical systems which utili...
We discuss the discrete Talbot effect in one- and two-dimensional waveguide lattices under the influ...
We report the first observation of discrete Talbot revivals in one-dimensional waveguide arrays. Unl...
Light propagation in periodic environments is often associated with a number of interesting and pote...
We report the first observation of discrete Talbot revivals in one-dimensional waveguide arrays. Unl...
Beam dynamics in synthetic optical media with PT symmetries imposed by a balanced arrangement of ga...
In quantum theory, any Hamiltonian describing a physical system is mathematically represented by a s...
In quantum theory, any Hamiltonian describing a physical system is mathematically represented by a s...
Photonic mesh lattices provide a versatile experimental platform for studying light propagation in a...
The Talbot effect, also referred to as self-imaging or lensless imaging, is of the phenomena manifes...
The effects of discrete Talbot revivals in waveguide arrays was analyzed. Talbot self-imaging effect...
We report the first experimental observation of optical solitons in PT-symmetric temporal lattices. ...