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Literature DB >> 26381983

Inhomogeneity of charge-density-wave order and quenched disorder in a high-Tc superconductor.

G Campi^1,2, A Bianconi^1,2, N Poccia^2,3, G Bianconi⁴, L Barba⁵, G Arrighetti⁵, D Innocenti^2,6, J Karpinski^6,7, N D Zhigadlo⁷, S M Kazakov^7,8, M Burghammer^9,10, M v Zimmermann¹¹, M Sprung¹¹, A Ricci^2,11.

Abstract

It has recently been established that the high-transition-temperature (high-Tc) superconducting state coexists with short-range charge-density-wave order and quenched disorder arising from dopants and strain. This complex, multiscale phase separation invites the development of theories of high-temperature superconductivity that include complexity. The nature of the spatial interplay between charge and dopant order that provides a basis for nanoscale phase separation remains a key open question, because experiments have yet to probe the unknown spatial distribution at both the nanoscale and mesoscale (between atomic and macroscopic scale). Here we report micro X-ray diffraction imaging of the spatial distribution of both short-range charge-density-wave 'puddles' (domains with only a few wavelengths) and quenched disorder in HgBa2CuO4 + y, the single-layer cuprate with the highest Tc, 95 kelvin (refs 26-28). We found that the charge-density-wave puddles, like the steam bubbles in boiling water, have a fat-tailed size distribution that is typical of self-organization near a critical point. However, the quenched disorder, which arises from oxygen interstitials, has a distribution that is contrary to the usually assumed random, uncorrelated distribution. The interstitial-oxygen-rich domains are spatially anticorrelated with the charge-density-wave domains, because higher doping does not favour the stripy charge-density-wave puddles, leading to a complex emergent geometry of the spatial landscape for superconductivity.

Entities: Chemical

Year: 2015 PMID： 26381983 DOI： 10.1038/nature14987

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

15 in total

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18 in total

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Journal: Nature Date: 2015-09-17 Impact factor: 49.962

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Journal: Proc Natl Acad Sci U S A Date: 2019-12-19 Impact factor: 11.205

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5. Spatially Resolved Ferroelectric Domain-Switching-Controlled Magnetism in Co₄₀Fe₄₀B₂₀/Pb(Mg_1/3Nb_2/3)_0.7Ti_0.3O₃ Multiferroic Heterostructure.

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