Non-equilibrium topological phenomena can be induced in quantum many-body systems
using time-periodic fields (for example, by laser or microwave illumination). This Review …

Engineering quantum states through light–matter interaction has created a paradigm in
condensed-matter physics. A representative example is the Floquet–Bloch state, which is …

Higher-order topological insulators (HOTIs) have emerged as a new class of phases, whose
robust in-gap “corner” modes arise from the bulk higher-order multipoles beyond the dipoles …

Majorana edge modes are candidate elements of topological quantum computing. In this
paper, we propose a Floquet engineering approach to generate multiple non-Hermitian …

Quantum phases of matter are resources for notions of quantum computation. In this work,
we establish a new link between concepts of quantum information theory and condensed …

We review the recent development in constructing higher-order topological band insulators
under strong periodic drivings. In particular, we focus on various approaches in formulating …

Light–matter coupling allows control and engineering of complex quantum states. Here we
investigate a hybrid superconducting–semiconducting Josephson junction subject to …

Braiding of topological structures in complex matter fields provides a robust framework for
encoding and processing information, and it has been extensively studied in the context of …

We theoretically investigate a practically realizable Floquet topological superconductor
model based on a one-dimensional Rashba nanowire and proximity-induced s-wave …

Electrons are indivisible elementary particles, yet paradoxically a collection of them can act
as a fraction of a single electron, exhibiting exotic and useful properties. One such collective …