Contributing to Quantum Technology Research through Quantum-Architectonics
Our research contributes to quantum technology by introducing a new concept of quantum-architectonics, which aims to integrate and systematize low-dimensional nanomaterials that control the particle-like and wave-like nature of matter and fields. By leveraging nanotechnology for material synthesis, fusion/junction of heterogeneous nanomaterials, and precision engineering for dimensional control, we develop novel quantum materials. Using ultra-low-temperature evaluation techniques, theoretical computation, and information technology, we explore new phenomena and aim to manifest functions through diverse system nanotechnologies, thereby establishing a foundational research infrastructure for quantum research.
Group
Designing and creating two-dimensional materials at the atomic/molecular level
Development of novel functional materials utilizing AI and MI
Manifestation of quantum function and dynamics in symmetry-broken quantum materials
Nano-science involving two-dimensional quantum materials
Research on the electronic states and properties of superconductors and topological materials
Understanding the diverse phases of quantum materials and the structure of quantum entanglement
Materials for solid-state quantum systems and quantum hardware
Quantum Magnetic Materials Team