The world's first commercial low-temperature SNVM was released

Recently, the world's first commercial low-temperature Scanning Nitrogen-vacancy Probe Microscope (SNVM) was released in Hefei, Anhui, China. This instrument is mainly used to detect the surface magnetism of nanomaterials and will provide a new method for research in fields such as materials science, condensed matter physics, and life sciences. The instrument was independently developed by CIQTEK, marking a new breakthrough in the industrialization development of precision measurement technology.

Precision measurement refers to the use of properties such as energy level transitions, coherent superposition, and entanglement to achieve substantial improvements in measurement accuracy, sensitivity, resolution, etc.

The CIQTEK Scanning Nitrogen-vacancy Probe Microscope (SNVM) is an advanced scientific analytical instrument that combines diamond nitrogen-vacancy (NV) optical detected magnetic resonance (ODMR) technology and atomic force microscope (AFM) scanning imaging technology, which can realize quantitative and non-destructive magnetic imaging of magnetic samples with high spatial resolution and high sensitivity.

In addition to diamond NV color centers, there are many technical routes for precision measurement, including atomic magnetometers, atomic clocks, etc. Atomic magnetometer is a technology that uses the interaction between light and atoms to detect magnetic fields, which can detect coronary heart disease and abnormal heart rate. As a new generation of atomic clock, optical lattice clock can currently achieve an error of only 1 second in tens of billions of years. Each technical route shows its unique capabilities according to the application scenarios.

SNVM for Magnetic Imaging of BFO Films

Precision sensors are known as "a key to the microscopic world." It is not only small, but also very sensitive. It can detect many signals that were undetectable and inaccurate in the past, such as brain magnetism and cardiac magnetism. It can be used for early diagnosis of neurological diseases, coronary heart disease and other diseases. At the same time, precision measurement has also brought about some innovations in detection methods, such as leakage current detection in lithium batteries in the new energy field, power grid management in the energy exploration field, and chip current imaging in the semiconductor/integrated circuit field.

SNVM for Imaging A Single Vortex Stray Magnetic Field

The industry regards precision measurement as another "ripe industrialization" direction in the field of information technology, and technological innovation is becoming increasingly active. In recent years, many start-up companies in the field of measurement have been hatched around the world to explore various application scenarios and promote the progress of commercialization.

SNVM for Twisted Bilayer CrI₃ Measurements

Precision measurement is to change "invisible" to "visible", which will become a powerful tool for us to mine the "iceberg" of valuable information and continuously expand the boundaries of human cognition. What is foreseen in microscopy is the limitless future of global technological development.