Nanophotonics offers opportunities for engineering and exploiting the quantum properties of
light by integrating quantum emitters into nanostructures, and offering reliable paths to …

Synthesizing many-body quantum systems with various ranges of interactions facilitates the
study of quantum chaotic dynamics. Such extended interaction range can be enabled by …

Waveguide QED simulators are analog quantum simulators made by quantum emitters
interacting with one-dimensional photonic band gap materials. One of their remarkable …

As light can mediate interactions between atoms in a photonic environment, engineering it
for endowing the photon-mediated Hamiltonian with desired features, like robustness …

Giant atoms, quantum emitters that couple to light at multiple discrete points, are emerging
as a new paradigm in quantum optics due to their many promising properties, such as …

Giant artificial atoms are promising and flexible building blocks for the implementation of
analog quantum simulators. They are realized via a multilocal pattern of couplings of two …

Quadratic light-matter interactions are nonlinear couplings such that quantum emitters
interact with photonic or phononic modes exclusively via the exchange of excitation pairs …

It is of fundamental interest in controlling the light–matter interaction for a long time in the
field of quantum information processing. Here, we explore a model by coupling a giant atom …

We investigate topology-dependent giant-atom–photon bound states in a giant-atom
coupled topological waveguide system and find that the bound states can induce topology …

To go beyond quantum optics in free-space setups, atom-light interfaces with structured
photonic environments are often employed to realize unconventional quantum …