Quantum

High-resolution imaging and spectroscopic techniques are fundamental to quantum materials research, enabling nanoscale characterization of electronic structures, coherence properties, and interfacial phenomena in quantum devices. These methodologies provide critical insights into the behavior of superconductors, topological materials, and low-dimensional quantum systems, facilitating the development of next-generation quantum computing, sensing, and communication technologies. By pushing the limits of spatial and spectral resolution, advanced imaging supports the precise engineering of quantum materials with tailored functionalities.