World's First Commercial Low-Temperature Quantum Diamond Atomic Force Microscope Unveiled
TapTechNews May 22nd news, the first national Quantum Precision Measurement Empowering Industrial Development Conference was held yesterday (May 21st) in Hefei, Anhui, and the world's first commercial low-temperature version of the Quantum Diamond Atomic Force Microscope was unveiled at the meeting.
This microscope is independently developed by Guoyi Quantum Technology (Hefei) Co., Ltd. (hereinafter referred to as Guoyi Quantum), marking an important breakthrough in the industrialized development of China's quantum precision measurement technology.
Magnetism is one of the basic properties of matter, and its microscopic imaging is an important direction in experimental physics research. By in-depth study of the microscopic magnetic properties in materials, scientists can deeply understand the structure, electronic properties and interactions of materials, which is of great significance for guiding the development of new magnetic storage materials and superconducting materials.
According to He Yu, the chairman of Guoyi Quantum, the low-temperature version of the Quantum Diamond Atomic Force Microscope is a quantum precision measurement instrument that combines the diamond NV color center optical detection magnetic resonance technology and the atomic force microscope scanning imaging technology. It can be used for high-resolution, high-sensitivity and quantitative non-destructive magnetic measurement in a wide temperature range, with high spatial resolution at the nanometer level and ultra-high detection sensitivity of a single spin.
TapTechNews note: Quantum precision measurement technology has the characteristics of high technology, high efficiency and high quality. It uses quantum properties (energy level transition, coherent superposition, quantum entanglement) to obtain the ability to break through the limit of classical measurement technology, and is expected to exceed the existing technology in terms of measurement accuracy, sensitivity, resolution, etc.