Networks of superconducting nano-puddles in 1/8 doped YBa sub(2)Cu sub(3)O sub(6. 5+)ycontrolled by thermal manipulation

Networks of superconducting nano-puddles in 1/8 doped YBa sub(2)Cu sub(3)O sub(6. 5+)ycontrolled by thermal manipulation

While it is known that the nature and the arrangement of defects in complex oxides have an impact on the material functionalities, little is known about control of superconductivity by oxygen interstitial organization in cuprates. Here we report direct compelling evidence for the control of T sub(c)...

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Veröffentlicht in:New journal of physics 2014-05, Vol.16, p.1-12
Hauptverfasser: Ricci, Alessandro, Poccia, Nicola, Campi, Gaetano, Coneri, Francesco, Barba, Luisa, Arrighetti, Gianmichele, Polentarutti, Maurizio, Burghammer, Manfred, Sprung, Michael, Zimmermann, Martin v, Bianconi, Antonio
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Charge density
Crystal defects
Cuprates
Modulation
Nanostructure
Networks
Superconductivity
Switching theory
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container_issue
container_start_page 1
container_title New journal of physics
container_volume 16
creator Ricci, Alessandro
Poccia, Nicola
Campi, Gaetano
Coneri, Francesco
Barba, Luisa
Arrighetti, Gianmichele
Polentarutti, Maurizio
Burghammer, Manfred
Sprung, Michael
Zimmermann, Martin v
Bianconi, Antonio
description While it is known that the nature and the arrangement of defects in complex oxides have an impact on the material functionalities, little is known about control of superconductivity by oxygen interstitial organization in cuprates. Here we report direct compelling evidence for the control of T sub(c) by manipulation of the superconducting granular networks of nanoscale puddles, made of ordered oxygen stripes, in a single crystal of YBa sub(2)Cu sub(3)O sub(6. 5 + )ywith average formal hole doping p close to 1/8. Upon thermal treatments we were able to switch from a first network of oxygen defect striped puddles with OVIII modulation (q sub(OVIII)(a* ) = (h+3/8, k, 0) and q sub(OVIII)(a*) = (h+5/8, k, 0)) to a second network characterized by OXVI modulation (q sub(OXVI)(a*) = (h + 7/16, k, 0) and qox-VI(a*) = (h + 9/16, k, 0)) and finally to a third network with puddles of OV periodicity (q sub(OV)(a*) = (4/10, 1, 0) and q sub(OV)(a*) = (6/10, 1, 0)). We map the microscopic spatial evolution of the out of plane OVIII, OXVI and OV puddle nanosize distribution via scanning micro-diffraction measurements. In particular, we calculated the number of oxygen chains (n) and the charge density (hole concentration p) inside each puddle, analyzing areas of 160 x 80 mu m super(2), and recording 12 800 diffraction patterns to reconstruct each spatial map. The high spatial inhomogeneity shown by all the reconstructed spatial maps reflects the intrinsic granular structure that characterizes cuprates and iron chalcogenides, disclosing the presence of several complex networks of coexisting superconducting domains with different lattice modulations, charge densities and gaps as in the proposed multi-gap scenario called superstripes.
doi_str_mv 10.1088/1367-2630/16/5/053030
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subjects Charge density
Crystal defects
Cuprates
Modulation
Nanostructure
Networks
Superconductivity
Switching theory
title Networks of superconducting nano-puddles in 1/8 doped YBa sub(2)Cu sub(3)O sub(6. 5+)ycontrolled by thermal manipulation
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