Add to ORKGAbstract. We analyze the transport of light in the bulk and at the edge of photonic Lieb lattices, whose unique feature is the existence of a flat band representing stationary states in the middle of the band structure that can form localized bulk states. We find that transport in bulk Lieb lattices is significantly affected by the particular excitation site within the unit cell, due to overlap with the flat band states. Additionally, we demonstrate the existence of new edge states in anisotropic Lieb lattices. These states arise due to a virtual defect at the lattice edges and are not described by the standard tight-binding model. ar X i
Topological properties play a fundamental role in many physical phenomena. One of the examples from ...
[[abstract]]The interplay of hopping parameters that can give rise to flat bands in consequence of q...
We study the localization properties of the two-dimensional Lieb lattice and its extensions in the p...
Artículo de publicación ISIWe analyze the transport of light in the bulk and at the edge of photonic...
We demonstrate the first experimental realization of a dispersionless state, in a photonic Lieb latt...
During the last decades, researchers of different scientific areas have investigated several systems...
Photonic lattices have emerged as an ideal testbed for localizing light in space. Among others, the ...
Flat-band systems have attracted considerable interest in different branches of physics in the past ...
Flatband systems typically host “compact localized states” (CLS) due to destructive interference and...
In recent years, novel two-dimensional materials such as graphene, bismuthene, and transition-metal ...
We experimentally study a Stub photonic lattice and excite their localized linear states originated ...
We report on the experimental observation of reduced light-energy transport and disorder-induced loc...
Abstract Ribbon lattices are kind of transition systems in between one and two dimensions, and their...
We report on a study of a one-dimensional linear photonic lattice hosting, simultaneously, fundament...
We demonstrate experimentally the existence of compact localized states (CLSs) in a quasi-one-dimens...
Topological properties play a fundamental role in many physical phenomena. One of the examples from ...
[[abstract]]The interplay of hopping parameters that can give rise to flat bands in consequence of q...
We study the localization properties of the two-dimensional Lieb lattice and its extensions in the p...
Artículo de publicación ISIWe analyze the transport of light in the bulk and at the edge of photonic...
We demonstrate the first experimental realization of a dispersionless state, in a photonic Lieb latt...
During the last decades, researchers of different scientific areas have investigated several systems...
Photonic lattices have emerged as an ideal testbed for localizing light in space. Among others, the ...
Flat-band systems have attracted considerable interest in different branches of physics in the past ...
Flatband systems typically host “compact localized states” (CLS) due to destructive interference and...
In recent years, novel two-dimensional materials such as graphene, bismuthene, and transition-metal ...
We experimentally study a Stub photonic lattice and excite their localized linear states originated ...
We report on the experimental observation of reduced light-energy transport and disorder-induced loc...
Abstract Ribbon lattices are kind of transition systems in between one and two dimensions, and their...
We report on a study of a one-dimensional linear photonic lattice hosting, simultaneously, fundament...
We demonstrate experimentally the existence of compact localized states (CLSs) in a quasi-one-dimens...
Topological properties play a fundamental role in many physical phenomena. One of the examples from ...
[[abstract]]The interplay of hopping parameters that can give rise to flat bands in consequence of q...
We study the localization properties of the two-dimensional Lieb lattice and its extensions in the p...