Add to ORKGIn this pro ject, we devise a technique to simulate tight-binding lattices of infinite size with circuitry. Each atom in the lattice is mo delled by a parallel LC resonator; the hoppings between atoms are modelled by a capacitor that connects the pairs of nodes. We devise a setup that introduces a tunable momentum parameter, enabling the simulation of infinitely large lattices. In the first half of the paper. we shows how this technique works by applying it to specific examples in one and two dimensions - to a 1D tight-binding chain and graphene with zigzag edge, respectively. The dispersion relation is successfully reproduced in these two examples. In the second half of the paper, we propose a two-dimensional non-Hermitian tight-bin...
We present a robust practical scheme for measuring the topological invariants of non-interacting tig...
In a Hermitian system, bound states must have quantized energies, whereas free states can form a con...
A topological insulator is a special class of material where the bulk of the material is gaped, exhi...
Topological phenomena known from solid state physics have been transferred to a variety of other cla...
We show that the bulk-boundary correspondence for topological insulators can be modified in the pres...
International audienceWe experimentally study the propagation of microwaves in an artificial honeyco...
International audienceWe propose a robust and efficient algorithm for computing bound states of infi...
We suggest a simple method to engineer a tight-binding quantum network based on proper coupling to a...
Non-Hermitian lattices under semi-infinite boundary conditions sustain an extensive number of expone...
The search of new means of generating and controlling topological states of matter is at the front o...
Calculating the electronic structure of systems involving very different length scales presents a ch...
Topological circuits, an exciting field just emerged over the last two years, have become a very acc...
AB stacked Bilayer graphene is a material of huge scientific interest due to the promise of superior...
AbstractParticle transport and localization phenomena in condensed-matter systems can be modeled usi...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
We present a robust practical scheme for measuring the topological invariants of non-interacting tig...
In a Hermitian system, bound states must have quantized energies, whereas free states can form a con...
A topological insulator is a special class of material where the bulk of the material is gaped, exhi...
Topological phenomena known from solid state physics have been transferred to a variety of other cla...
We show that the bulk-boundary correspondence for topological insulators can be modified in the pres...
International audienceWe experimentally study the propagation of microwaves in an artificial honeyco...
International audienceWe propose a robust and efficient algorithm for computing bound states of infi...
We suggest a simple method to engineer a tight-binding quantum network based on proper coupling to a...
Non-Hermitian lattices under semi-infinite boundary conditions sustain an extensive number of expone...
The search of new means of generating and controlling topological states of matter is at the front o...
Calculating the electronic structure of systems involving very different length scales presents a ch...
Topological circuits, an exciting field just emerged over the last two years, have become a very acc...
AB stacked Bilayer graphene is a material of huge scientific interest due to the promise of superior...
AbstractParticle transport and localization phenomena in condensed-matter systems can be modeled usi...
Artificial graphene consisting of honeycomb lattices other than the atomic layer of carbon has been ...
We present a robust practical scheme for measuring the topological invariants of non-interacting tig...
In a Hermitian system, bound states must have quantized energies, whereas free states can form a con...
A topological insulator is a special class of material where the bulk of the material is gaped, exhi...