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Cooper Pairing and Phase Coherence in Iron Superconductor Fe1+x(Te,Se)

The Cooper pairing and phase coherence are two fundamental aspects of superconductivity. Due to breaking time reversal symmetry, magnetic impurities are detrimental to superconductivity, yet microscopically how they affect the pairing strength and phase coherence in a real material is less understood. Recently we observed a robust zero-energy bound state at an interstitial Fe impurity (IFI) in superconducting Fe1+x(Te,Se), signifying intense impurity scattering. Here we report a comprehensive study, using scanning tunnelling microscopy/spectroscopy (STM/S) technique, of the global effects of IFIs on the ground state of Fe1+x(Te,Se) over a wide range of IFI concentration x. Our high resolution tunnelling spectroscopy and quasi-particle interference data at very low temperature demonstrate that IFIs hardly affect the electron pairing strength, while they cause significant decoherence of Cooper pairs in precedence of the Coulomb correlation, eventually driving the ground state of the system from strong-coupling-superconductor to diffusive-metal with incoherent electron pairs.

preprint2016arXivOpen access

J. -X. Yin Zheng Wu X. Huang J. -H. Wang Z. -Y. Ye Rui Wu X. -X. Wu X. -J. Liang H. -Q. Mao Jian Li Y. -Y. Zhao C. -S. Ting J. -P. Hu Z. Q. Wang P. -H. Hor H. Ding S. H. Pan

cond-mat.supr-con

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J. -X. Yin Zheng Wu X. Huang J. -H. Wang Z. -Y. Ye Rui Wu X. -X. Wu X. -J. Liang H. -Q. Mao Jian Li Y. -Y. Zhao C. -S. Ting J. -P. Hu Z. Q. Wang P. -H. Hor H. Ding S. H. Pan

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Cooper Pairing and Phase Coherence in Iron Superconductor Fe1+x(Te,Se)

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