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The latest scientific discovery has shocked the physics community, and a study of room-temperature superconducting materials has attracted widespread attention and research. The breakthrough discovery was claimed by a team of Korean scientists who discovered a material called "modified lead-apatite crystal structure," which is said to be the world's first room-temperature superconducting material. This news not only excited scientists, but also aroused strong interest in the capital market in the superconductivity industry.
The discovery by a team of Korean scientists has caused a stir in the field of research, and many other teams have also begun to delve into the material. In addition, this discovery has also stimulated the attention of the capital market to superconducting concept stocks, and the stock prices of many companies have risen significantly.
The Huazhong University of Science and Technology research team also announced an important breakthrough when they synthesized LK-99 crystals that can be maglevated. This crystal has stronger magnetic levitation performance than previous samples and promises true contactless superconducting magnetic levitation technology. The news was first released by the B-station UP master "Guanshankou Male Technician", whose team was led by Professor Chang Haixin from the School of Materials of Huazhong University of Science and Technology, and included postdoctoral fellow Wu Hao and doctoral student Yang Li.
According to reports, the LK-99 crystal synthesized by the research team of Huazhong University of Science and Technology appears as micron-level "small black dots" under the microscope. When a NdFeB magnet is placed under this crystal, the "little black dot" will produce an inverted and standing reaction as the magnet approaches and moves away, regardless of the polarity of the magnetic pole, showing strong diamagnetism. Although the research team says this diamagnetism is weak, the discovery is still exciting.
However, the research team also noted that they have only verified the Meissner effect so far, and the sample is only a few tens of microns in size. Further verification of room temperature superconductivity will require waiting for the results of the next batch of samples.
Several teams are conducting validation experiments, including researchers at Beihang University and the Institute of Metal Research, Chinese Academy of Sciences. The Beihang University team's paper shows that they did not detect the room-temperature superconductivity claimed by the Korean team.
Although research on room-temperature superconducting materials is still in its infancy, capital markets are already showing strong interest. The share prices of a number of concept stocks have risen significantly, including companies such as Farsheng, Baili Electric, Yongding and Western Superconductor. These companies have different business directions in the field of superconductivity, including high-temperature superconducting strip, superconducting magnet technology, and high-temperature superconductivity.
However, industry companies generally say they are on the sidelines about whether LK-99 is superconductive, believing that more experimental evidence is needed to determine it. Even if room-temperature superconducting materials are successfully verified, it will take a long time to realize industrial applications.
The emergence of room-temperature superconducting materials is expected to revolutionize the problem of electrical energy loss, with profound implications for the power industry and other electricity-related fields. Superconducting materials can not only reduce electrical energy loss, but also have other electromagnetic properties, which are expected to bring revolutionary changes to magnetic levitation transportation, nuclear fusion and other fields.
Overall, although the research on room-temperature superconducting materials is still in its early stages, this breakthrough discovery has already sparked widespread interest and research. In the future, with the accumulation of more experimental evidence, room-temperature superconducting materials are expected to become an important scientific and technological breakthrough, providing new possibilities for human beings to solve energy problems.
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