The weight is coming! Huake successfully verified LK-99 crystal, which has a larger magnetic levitation angle than Koreans.

  Recently, we are still wondering whether the experts will be hit in the face, but now we have good news. Under the guidance of the tutor Professor Chang Haixin, Dr. Wu Hao and Dr. Yang Li from Huazhong University of Science and Technology have successfully synthesized LK-99 crystal and made it magnetically levitated.

  You can find the related video on the small broken station, and the ID of the video is Sekinoyamaguchi Male Technician. It is said that at present, only the Minas effect has been verified. Although there is only a small sample and the resistance has not been measured, it is anxious to burn the third furnace for fear of damaging the sample.

  From the video, we can see that the suspension angle of LK-99 crystal is larger than the samples obtained by Korean scientists before, which provides hope for realizing the real contactless superconducting magnetic levitation.

  Strangely, many people didn't believe in room temperature superconductivity from the beginning, including many professors and experts. They have always been skeptical about it, and even laughed at the view that it violates scientific laws, and some even bet on it. But history has proved time and time again that authority is often an obstacle in the face of major scientific and technological discoveries.

  Science does not believe in authority. At least from the existing evidence, LK-99 is a breakthrough material, and this path is likely to realize room temperature and atmospheric pressure superconductivity.

  This superconducting theory was originally called ISB theory, which was put forward by Cui Dongzhi, the founder of the Department of Chemistry of Korea University. It is called the theory of superconducting tape between atoms. Unfortunately, this theory has never been paid attention to. Only two of his students, Li Shipei and Jin Zhixun, are doing research. They found LK-99 crystal in 1999.

  In addition to theoretical support, the molecular structure of LK-99 crystal was simulated by the National Laboratory (LBNL). The results show that LK-99 can be used as a room temperature and atmospheric pressure superconductor.

  Through calculation and research, they found that when copper atoms penetrate into the crystal structure and replace lead atoms, the crystal will slightly twist and shrink by 0.5%. This unique material structure can show superconductivity, but the copper atom must enter the proper position, so the synthesis of this material is very difficult.

  The research of Shenyang National Laboratory of Materials Science, Institute of Metals, Chinese Academy of Sciences also confirmed this point. They believe that after the introduction of copper, the transition from insulator to metal took place. Theoretically, this special electronic structure exists, and they think that it may be better to add metal, but they have not reached a final conclusion on superconductivity.

  Huazhong University of Science and Technology successfully verified LK-99 crystal and realized magnetic levitation at a larger angle. This breakthrough material path is likely to realize room temperature and normal pressure superconductivity. Although the concept of room temperature superconductivity has been controversial, we should not ignore the power of science and the possibility of breakthrough.

  For this breakthrough, we should continue to pay attention to and support the efforts of scientists, believing that they can bring more surprises and breakthroughs and make new contributions to the scientific field. Innovation and breakthrough are never easy, but only by continuous efforts and exploration can we constantly surpass ourselves and move towards a more brilliant future. Let's cheer for this great scientific discovery!