1. Rapid change of superconductivity and electron-phonon coupling through critical doping in Bi-2212
- Author
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He, Y, Hashimoto, M, Song, D, Chen, S-D, He, J, Vishik, IM, Moritz, B, Lee, D-H, Nagaosa, N, Zaanen, J, Devereaux, TP, Yoshida, Y, Eisaki, H, Lu, DH, and Shen, Z-X
- Subjects
Quantum Physics ,Physical Sciences ,Condensed Matter Physics ,cond-mat.str-el ,cond-mat.supr-con ,General Science & Technology - Abstract
Electron-boson coupling plays a key role in superconductivity for many systems. However, in copper-based high-critical temperature (T c) superconductors, its relation to superconductivity remains controversial despite strong spectroscopic fingerprints. In this study, we used angle-resolved photoemission spectroscopy to find a pronounced correlation between the superconducting gap and the bosonic coupling strength near the Brillouin zone boundary in Bi2Sr2CaCu2O8+δ The bosonic coupling strength rapidly increases from the overdoped Fermi liquid regime to the optimally doped strange metal, concomitant with the quadrupled superconducting gap and the doubled gap-to-T c ratio across the pseudogap boundary. This synchronized lattice and electronic response suggests that the effects of electronic interaction and the electron-phonon coupling (EPC) reinforce each other in a positive-feedback loop upon entering the strange-metal regime, which in turn drives a stronger superconductivity.
- Published
- 2018