Catalog excerpts
Industrial applications-Quantum precision detection Basic scientific research Empowered value: Quantum precision measurement technology combined with the high pressure oft he anvil proceed by the diamond, enables the nondestructive magnetic neld detection of the material without introducing any additional element. The implantation o£NV color center into the diamond anvil can directly sense the magnetic signal changes of the material in the diamond anvil under different pressure, temperature, magnetic neld and other conditions. In addition to the zero resistance, superconductors also repel the internal magnetic field, a phenomenon called the Meissner effect. The superconductivity of materials can be judged by detecting the Meissner erfsct. Quantum magnetic sensor based onNV color center can be used for magnetic detection and microscopic imaging in high pressure environment, providing a new research means for high pressure phvsics. Characterization of magnetic materials Empowered value: Based on NV color center and AFM scanning imaging technology of scanning NV probe microscope, with high sensitivity, nano spatial resolution, working temperature area wide, make up for the existing magneto-light kel microscope, lorentz electron microscope, has emerged in the frontier magnetism research, is about to become an important means of magnetic characterization in the field. Single molecule magnetic resonance Empowered value: New diamond-based magnetic resonance technologies can push subjects to the single molecule level and increase the imaging resolution from millimeter to nanoscale. For example, isotope-purified diamonds are used to extend the coherence time, bind free radicals with individual biomolecules such as proteins or DNA to the diamond surface, and then manipulate the NV probe and the spin to be probed simultaneously to filter the signal specifically, thus achieving single-molecule paramagnetic resonance measurements. Search for new particle-like axons Empowered value: Diamond NV color core acts as a sensor to search for electron-nucleon interaction within the force range below micron. For example, we can define the novel interactions tobe explored into the information of the quantum phase of a single-spin quantum sensor. It shows that the use of the NV color center quantum sensor to study various new physics beyond the standard model has unique advantages, and provides us with a new idea to study the dark energy of dark mat ter.
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