High-temperature superconductivity in monolayer Bi2Sr2CaCu2O8+δ
Electronic inhomogeneity and charge-ordered state
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nature-s41586-019-1718-x
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Electronic inhomogeneity and charge-ordered state
Next, we focus on the electronic structure of monolayer Bi-2212 beyond the superconducting energy gap Δ 0 . In particular, the energy scale Δ 1 is associated with the anti-nodal pseudogap and other correlated states that are intricately linked to superconductivity 21 . In contrast to the relatively homogeneous superconducting gap Δ 0 , the pseudogap Δ 1 varies widely at the nanometre length scale on bulk copper oxides 18 . To study the inhomogeneity in monolayer Bi-2212, we extract Δ 1 from the local differential conductance spectra collected on a dense array of locations on samples at various doping levels, and construct the gap map r Δ ( ) 1 as shown in Fig. 5a–c. Similar to previous measurements on bulk Bi-2212, we find that wide, nanometre-scale variations in Δ 1 dimin- ish as the doping level increases in the monolayer; meanwhile Δ 1 averaged over the entire field of view, Δ¯ 1 , shifts to lower energies. Close examination of Δ 1 histograms reveals that Δ¯ 1 in monolayers is in general larger than that in bulk source crystals from which the monolay- ers are cleaved (Extended Data Fig. 9), and the deviation varies from q CO 10 200 meV 1 g (E = 20 meV) Low High a b c e f g h j d i 1 = 120 meV UD50 1L OP88 1L OD55 1L 0 1 2 0 100 200 UD501L OP881L OD551L UD50 Bulk OP88 Bulk OD55 Bulk Δ 1 = 39 meV Δ 1 = 38 meV Δ Δ Ar ea (%) 1 / Δ Δ 1 Download 5.82 Mb. Do'stlaringiz bilan baham: 
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