A new class of superconductors has been identified, which demonstrates the ability to operate electricity without resistance at a temperature of 45 Calvin (-228 ° C) and under normal atmospheric pressure. Research conducted at the University of Southern Science and Technology (Sustech) at Shenzhen, China has given rise to this discovery in nickel oxide-based compounds. This advancement can greatly affect various technologies that rely on superconductors including medical imaging and energy transmission.
Conclusion on Niclet Superconductors
As Study In nature, researchers visited the superconducting properties in a thin film of Nicel Crystal that were artificially grown in the laboratory. The material demonstrated important characteristics of superconductability, including loss of electrical resistance and removal of magnetic fields. Daffeng Lee, a physicist at City University, Hong Kong, said in an interview [News Source] The ability of nickens to increase significant temperature can increase their application in practical technologies.
Nichelets now incorporate maltors and pnictides as unconventional superconductors that are high in standard atmospheric pressure and as high as -123 ° C at temperatures. This new discovery contributes to the ongoing efforts to understand how such materials achieve superconductity and can enable the development of materials capable of working at room temperature.
Probability of progress and future
Since 2019, the enthusiasm around the nichelets has been increasing, when early signs of superconductity were detected in similar materials. Equality between nichelets and cuprats increased the possibility of high operating temperature. A success in 2023 demonstrated superconductity in nichelets under high pressure, but the latest research indicates that this phenomenon also occurs under ambient pressure.
In December, scientists at Stanford University provided initial evidence of superconductity in nichelets under general conditions. The latest study further confirms these assets, establishing nichelets as a promising subject for further research. Jhuu Chain, a physicist in Sustake and co-writer of the study, Said Increasing significant temperature remains a primary goal, with efforts to focus on refining the composition and development methods of the material.
Global interest superconductity
In recent years, the field of superconductity has been under intensive investigation, in which some claims have proved to be controversial. The high-profile report of the room-Papan superconductity, such as the physicist Ranga Dies at the University of Rochester, later retreated. Similarly, claims around LK-99, a material to display room-somatic superconductity, a material was banned.
