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W2024567728 abstract "Development of the STM and ARPES spectroscopy enabled to reach the resolution sufficient for probing the particle-hole entanglement in superconducting materials, even above the critical temperature Tc. On a quantitative level one can characterize such entanglement in terms of the Bogoliubov angle which determines to what extent the particles and holes constitute the effective quasiparticles. In classical superconductors, where the phase transition is related to formation of the Cooper pairs almost simultaneously accompanied by onset of their long-range phase coherence, the Bogoliubov angle is slanted (due to finite particle-hole mixing) all the way up to Tc. In the high temperature superconductors and in superfluid ultracold fermion atoms near the Feshbach resonance the situation is different because the preformed pairs can exist above Tc albeit loosing coherence due to the strong quantum fluctuations. We discuss a generic temperature dependence of the Bogoliubov angle in such pseudogap state indicating a novel, non-BCS behavior. For analysis we use the two-component model describing the pairs coexisting with single fermions and study selfconsistently their feedback effects by the similarity transformation originating from the renormalization group approach." @default.
W2024567728 created "2016-06-24" @default.
W2024567728 creator A5072620577 @default.
W2024567728 date "2010-03-18" @default.
W2024567728 modified "2023-09-27" @default.
W2024567728 title "Particle-hole mixing driven by the superconducting fluctuations" @default.
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W2024567728 doi "https://doi.org/10.1140/epjb/e2010-00100-0" @default.
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