Nuclear Magnetic Resonance (NMR) spectroscopy and Magnetic Resonance Imaging (MRI)
are analytical and diagnostic tools that are essential for a very broad field of applications …

We review recent work on low-frequency Floquet engineering and its application to quantum
materials driven by light, focusing on van der Waals systems hosting Moiré superlattices …

Quantum computing is considered as a next-generation information processing technology.
The basic element of a quantum computing system is a quantum bit, often called a qubit …

An external drive can improve the coherence of a quantum many-body system by averaging
out noise sources. It can also be used to realize models that are inaccessible in the static …

Ultralight scalars can extract rotational energy from astrophysical black holes through
superradiant instabilities, forming macroscopic boson clouds. This process is most efficient …

Resolution in proton solid state magic angle sample spinning (MAS) NMR is limited by the
intrinsically imperfect nature of coherent averaging induced by either MAS or multiple pulse …

Semiconductor spin qubits demonstrated single-qubit gates with fidelities up to $99.9\% $
benchmarked in the single-qubit subspace. However, tomographic characterizations reveal …

Floquet theory is an elegant mathematical formalism originally developed to solve time-
dependent differential equations. Besides other fields, it has found applications in optical …

Data-driven methods for establishing quantum optimal control (QOC) using time-dependent
control pulses tailored to specific quantum dynamical systems and desired control objectives …

The realization of effective Hamiltonians featuring many-body interactions beyond pairwise
coupling would enable the quantum simulation of central models underpinning topological …