Recent Advances in High-Temperature Superconductivity

Creators: Yeh, Nai-Chang

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Abstract

After more than 15 years of intense research since the discovery of high-temperature superconductivity [1], many interesting physical phenomena unique to the cuprate superconductors are better understood, and various applications have been realized. However, the underlying mechanism for high-temperature superconductivity remains elusive, largely due to the complication of numerous competing orders in the ground state of the cuprates. We review some of the most important physics issues and recent experimental developments associated with these strongly correlated electronic systems, and discuss current understanding and possible future research direction.

Additional Information

The author is pleased to acknowledge collaborations with Ching-Tzu Chen and Chu- Chen Fu at Caltech, Dr. Richard P. Vasquez and Dr. L. Douglas Bell at the Jet Propulsion Laboratory, Prof. Jochen Mannhart and his research group at the University of Augsburg in Germany, Dr. Satuko Tajima and her research group at the Superconductivity Research Laboratory of ISTEC in Japan, and Prof. Sung-Ik Lee and his research group in Pohang University of Science and Technology in Korea. Useful discussions with Prof. Dung-Hai Lee, Prof. S. Uchida, Prof. Elbio Dagotto and Dr. Xiao Hu are gratefully acknowledged. The research at the California Institute of Technology (Caltech) has been supported by the National Science Foundation, Grant # DMR-0103045.

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