Author
Listed:
- Peng Cai
(State Key Laboratory of Low Dimensional Quantum Physics, Tsinghua University)
- Xiaodong Zhou
(State Key Laboratory of Low Dimensional Quantum Physics, Tsinghua University)
- Wei Ruan
(State Key Laboratory of Low Dimensional Quantum Physics, Tsinghua University)
- Aifeng Wang
(University of Science and Technology of China)
- Xianhui Chen
(University of Science and Technology of China)
- Dung-Hai Lee
(University of California at Berkeley)
- Yayu Wang
(State Key Laboratory of Low Dimensional Quantum Physics, Tsinghua University)
Abstract
Although the origin of high temperature superconductivity in the iron pnictides is still under debate, it is widely believed that magnetic interactions or fluctuations have a crucial role in triggering Cooper pairing. A key issue regarding the iron pnictide phase diagram is whether long-range magnetic order can coexist with superconductivity microscopically. Here we use scanning tunnelling microscopy to investigate the local electronic structure of underdoped NaFe1−xCoxAs near the spin density wave and superconducting phase boundary. Spatially resolved spectroscopy directly reveals both the spin density wave and superconducting gaps at the same atomic location, providing compelling evidence for the microscopic coexistence of the two phases. The strengths of the two orders are shown to anti-correlate with each other, indicating the competition between them. This work implies that Cooper pairing in the iron pnictides can occur when portions of the Fermi surface are already gapped by the spin density wave order.
Suggested Citation
Peng Cai & Xiaodong Zhou & Wei Ruan & Aifeng Wang & Xianhui Chen & Dung-Hai Lee & Yayu Wang, 2013.
"Visualizing the microscopic coexistence of spin density wave and superconductivity in underdoped NaFe1−xCoxAs,"
Nature Communications, Nature, vol. 4(1), pages 1-6, June.
Handle:
RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms2592
DOI: 10.1038/ncomms2592
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