Add to ORKGMode tapering, or the gradual manipulation of the size of some mode, is a requirement for any system that aims to efficiently interface two or more subsystems of different mode sizes. While high efficiency tapers have been demonstrated, they often come at the cost of a large device footprint or challenging fabrication. Topological photonics, offering robustness to certain types of disorder as well as chirality, has proved to be a well-suited design principle for numerous applications in recent years. Here we present a new kind of mode taper realized through topological bandgap engineering. We numerically demonstrate a sixfold change in mode width over an extremely compact 8$\mu$m distance with near unity efficiency in the optical domain. Wi...
We study the topological photonic states in one-dimensional (1-D) lattices analogue to the Su-Schrie...
In this work, we use Wannier functions to analyze topological phase transitions in one dimensional p...
We measure the local near-field spin in topological edge state waveguides that emulate the quantum s...
Rapidly growing demands for fast information processing have launched a race for creating compact an...
Band topology has been studied as a design principle of realizing robust boundary modes. Here, by ex...
The incumbent technology for bringing light to the nanoscale, the near-field scanning optical micros...
Tremendous efforts have been devoted to the search for exotic topological states, which usually exis...
Topological photonics holds the promise for enhanced robustness of light localization and propagatio...
The bulk-edge correspondence links the Chern topological numbers with the net number of unidirection...
Topology-linked binary degrees of freedom of guided waves have been used to expand the channel capac...
Topological photonics has attracted increasing attention in recent years due to the unique opportuni...
5 pags., 5 figs.Photonic crystal topological insulators host protected states at their edges. In the...
Recently introduced field of topological photonics aims to explore the concepts of topological insul...
Surface lattice modes, generated by the evanescent coupling between localized modes of optical reson...
Two-dimensional topological insulators with quantized large Chern numbers feature a number of protec...
We study the topological photonic states in one-dimensional (1-D) lattices analogue to the Su-Schrie...
In this work, we use Wannier functions to analyze topological phase transitions in one dimensional p...
We measure the local near-field spin in topological edge state waveguides that emulate the quantum s...
Rapidly growing demands for fast information processing have launched a race for creating compact an...
Band topology has been studied as a design principle of realizing robust boundary modes. Here, by ex...
The incumbent technology for bringing light to the nanoscale, the near-field scanning optical micros...
Tremendous efforts have been devoted to the search for exotic topological states, which usually exis...
Topological photonics holds the promise for enhanced robustness of light localization and propagatio...
The bulk-edge correspondence links the Chern topological numbers with the net number of unidirection...
Topology-linked binary degrees of freedom of guided waves have been used to expand the channel capac...
Topological photonics has attracted increasing attention in recent years due to the unique opportuni...
5 pags., 5 figs.Photonic crystal topological insulators host protected states at their edges. In the...
Recently introduced field of topological photonics aims to explore the concepts of topological insul...
Surface lattice modes, generated by the evanescent coupling between localized modes of optical reson...
Two-dimensional topological insulators with quantized large Chern numbers feature a number of protec...
We study the topological photonic states in one-dimensional (1-D) lattices analogue to the Su-Schrie...
In this work, we use Wannier functions to analyze topological phase transitions in one dimensional p...
We measure the local near-field spin in topological edge state waveguides that emulate the quantum s...
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