Zhangjiang and other high-energy research and development institutions have made new scientific research achievements
In Zhangjiang, Pudong, a group of high-energy research and development institutions have gathered, playing an important role in the source of scientific and technological innovation. Let's take a look at the latest scientific research achievements of Li Zhengdao Institute, Chinese Academy of Sciences Shanghai Institute of Advanced Research, Chinese Academy of Sciences Shanghai Institute of Materia Medica in August ↓
Li Zhengdao Research Institute
Recently, the Wu Jianda research group of Li Zhengdao Institute and A The neutron scattering experimental team led by Professor Podlesnyak has made significant progress in the study of confined Bette strings in one-dimensional quantum magnetic systems. The relevant research results are titled "Conclusion of many body being the strings" and published in the form of an express in the internationally renowned academic journal "Physical Review B".
![Zhangjiang and other high-energy research and development institutions have made new scientific research achievements](https://a5qu.com/upload/images/28a2a8e3f523ee6f1be18800b71b01b6.jpg)
Li Zhengdao Research Institute
Since its establishment in November 2016, the Li Zhengdao Institute has developed into three major research directions: astronomy and astrophysics, particle and nuclear physics, and quantum basic science, entering a stage of rapid development.
As of the end of 2022, the Li Zhengdao Research Institute has gathered 80 full-time researchers from 16 countries and regions, including 11 world-class scientists, 27 Li Zhengdao young scholars, and 41 postdoctoral fellows. All full-time scholars have overseas study or research experience, with international scholars accounting for nearly 40%, forming a high-level talent team with a reasonable age structure and high internationalization.
![Zhangjiang and other high-energy research and development institutions have made new scientific research achievements](https://a5qu.com/upload/images/d5e12617e6ca9dbe8044fc3a600a492c.jpg)
Chinese Academy of Sciences Shanghai Institute of Advanced Research
Recently, Wang Zhongyang, the research team of the Chinese Academy of Sciences Shanghai Institute of Advanced Research, made important progress in the research of phase microscopic imaging, and proposed a single exposure quantitative phase microscopy technology based on the phase recovery algorithm. The relevant research results were published in the important journal of the Optical Society of America, Optics Letters, under the title "Phase microscopy using band limited images and its Fourier transform constraints".
Chinese Academy of Sciences Shanghai Institute of Advanced Research
![Zhangjiang and other high-energy research and development institutions have made new scientific research achievements](https://a5qu.com/upload/images/28a2a8e3f523ee6f1be18800b71b01b6.jpg)
As an interdisciplinary comprehensive science and education institution located in Zhangjiang, the Chinese Academy of Sciences Shanghai Institute of Advanced Research focuses on the development, construction and operation of advanced light source large scientific devices to carry out original innovation research and key core technology research and development in accelerator science, photon science, energy science and information science to support cutting-edge scientific research and provide core technology and integrated technology solutions for strategic emerging industries. The research institute has national major scientific and technological infrastructure such as Shanghai Synchrotron Radiation Light Source and National Protein Facility.
Shanghai Institute of Materia Medica, Chinese Academy of Sciences
On August 2, three researchers Xu Huaqiang, Duan Jia and Yang Dehua from the Chinese Academy of Sciences Shanghai Institute of Materia Medica jointly published the latest research achievement "GPCR activation and GRK2 assembly by a biologically intelligent Agonist" in the journal Nature, and reported the structure of the complex of the first high-resolution GPCR - neurotensin receptor and GRK2 internationally, revealing the detailed molecular mechanism of GRK2 recognition and regulation of GPCR. Through structural analysis, a new GPCR biased ligand binding pocket was found for the first time, opening up a new idea and way for clinical development of GPCR targeted biased drug molecules.
![Zhangjiang and other high-energy research and development institutions have made new scientific research achievements](https://a5qu.com/upload/images/3f257c8de7874578fb134f11aebe9308.jpg)
Screenshots of the article on the Nature magazine website
Shanghai Institute of Materia Medica, Chinese Academy of Sciences
Text: Electricity
![Zhangjiang and other high-energy research and development institutions have made new scientific research achievements](https://a5qu.com/upload/images/28a2a8e3f523ee6f1be18800b71b01b6.jpg)
Information: Zhangjiang Group