Single-molecule technology stands as a powerful tool, enabling the characterization of
intricate structural and dynamic information that would otherwise remain concealed within …

Pushing the frontiers of condensed-matter magnetism requires the development of tools that
provide real-space, few-nanometre-scale probing of correlated-electron magnetic …

Detecting magnetic field is of great importance for many applications, such as
magnetoencephalography and underground prospecting. There have been many …

Nitrogen-vacancy (NV) centers in diamond are attractive as quantum sensors owing to their
superb coherence under ambient conditions. However, the NV center spin resonances are …

We make use of room-temperature magnetostatic surface spin waves (MSSWs) to mediate
the interaction between the microwave field from an antenna and the spin of nitrogen …

Quantum sensing is crucial for precision measurements, yet quantum sensor sensitivity is
often limited by the coherence time of the quantum system. Here, we demonstrate a method …

Quantum sensing is a quantum technology for ultrasensitive detection, which is particularly
useful for sensing weak signals at the nanoscale. Nitrogen vacancy centers in diamond …

We show that the boundary charge and spin can be used as alternative signatures of the
topological phase transition in topological models such as semiconducting nanowires with …

Hybrid systems coupling quantum spin defects (QSD) and magnons can enable unique
spintronic device functionalities and probes for magnetism. Here, we add electric field …

We propose a quantum memory scheme to transfer and store the quantum state of a
superconducting flux qubit (FQ) into the electron spin of a single nitrogen-vacancy (NV) …