Innovative Cooling Discovery Made by Chinese Scientists Offers Potential Breakthrough in Quantum Calculations
In the light of the growing technological confrontation between the United States and China, a group of scientists under the leadership of China announced an important discovery that could have a revolutionary effect on quantum calculations.
This discovery is of particular importance for China, a country that largely depends on the import of helium, a key cooling element for high -tech applications. Researchers seek to solve the problem of growing demand for helium, which is a scarce resource, especially helium-3, used in extreme conditions.
The problem with helium and the consequences of the technological war
As the tension exacerbates between the United States and China, the latter is faced with a risk of limited access to dinemania refrigerators necessary for ultra -low temperatures. These refrigerators, vital for creating conditions in quantum calculations, are already difficult to get. China’s dependence on Helia imports, especially from the United States, adds a new level of complexity to technological rivalry. In response to Helia, an international team led by researchers from the laboratory of the Chinese Academy of Sciences in Beijing began the search for solid material that can achieve significant changes in energy in the transition between states.
After extensive experiments, they opened a cobalt quantum-magnetic material called “Super hard.” This material has both solid and liquid characteristics, which demonstrates its potential as an alternative cooling substance.
Scientists noted that the “super -hard” material demonstrates cooling to temperatures below one kelvin, which makes it possible to achieve ultra -low temperatures. In physics, supernarial temperatures are a range from 0 to 4.2 kelvin, which is crucial for the development of technology, such as quantum computing.
Professor Sun Paitsze from the Beijing National Laboratory of Physics of the condensed state emphasized a new approach to achieving supernarial temperatures using solid -state materials.
The dependence of quantum technologies on helium deficiency, especially helium-3, seriously complicates China’s desire in