Irradiation-Free, Columnar Defects Comprised of Self-Assembled Nanodots and Nanorods Resulting in Strongly Enhanced Flux-Pinning in YBa2Cu307-δ Films

Goyal, Amit; Kang, Sukill; Leonard, Keith J; Martin, Patrick M; Gapud, Albert Agcaoili; Varela del Arco, Maria; Paranthaman, Mariappan Parans; Ijaduola, Anota O; Specht, Eliot D; Thompson, James R; Christen, David K; Pennycook, Stephen J; List, III, Frederick Alyious

doi:10.1088/0953-2048/18/11/021

Irradiation-Free, Columnar Defects Comprised of Self-Assembled Nanodots and Nanorods Resulting in Strongly Enhanced Flux-Pinning in YBa₂Cu₃0_7-δ Films

Journal Article · Mon Oct 31 23:00:00 EST 2005 · Superconductor Science & Technology

DOI:https://doi.org/10.1088/0953-2048/18/11/021· OSTI ID:989542

Goyal, Amit ^[1]; Kang, Sukill ^[1]; Leonard, Keith J ^[1]; Martin, Patrick M ^[1]; Gapud, Albert Agcaoili ^[1]; Varela del Arco, Maria ^[1]; Paranthaman, Mariappan Parans ^[1]; Ijaduola, Anota O ^[1]; Specht, Eliot D ^[1]; Thompson, James R ^[1]; Christen, David K ^[1]; Pennycook, Stephen J ^[1]; List, III, Frederick Alyious ^[1]

ORNL

The development of biaxially textured, second-generation, high-temperature superconducting (HTS) wires is expected to enable most large-scale applications of HTS materials, in particular electric-power applications. For many potential applications, high critical currents in applied magnetic fields are required. It is well known that columnar defects generated by irradiating high-temperature superconducting materials with heavy ions significantly enhance the in-field critical current density. Hence, for over a decade scientists world-wide have sought means to produce such columnar defects in HTS materials without the expense and complexity of ionizing radiation. Using a simple and practically scalable technique, we have succeeded in producing long, nearly continuous vortex pins along the c-axis in YBa{sub 2}Cu{sub 3}O{sub 7-{delta}} (YBCO), in the form of self-assembled stacks of BaZrO{sub 3} (BZO) nanodots and nanorods. The nanodots and nanorods have a diameter of {approx}2-3 nm and an areal density ('matching field') of 8-10 T for 2 vol.% incorporation of BaZrO{sub 3}. In addition, four misfit dislocations around each nanodot or nanorod are aligned and act as extended columnar defects. YBCO films with such defects exhibit significantly enhanced pinning with less sensitivity to magnetic fields H. In particular, at intermediate field values, the current density, J{sub c}, varies as J{sub c} {approx}H{sup -{alpha}}, with {alpha} {approx} 0.3 rather than the usual values 0.5-0.65. Similar results were also obtained for CaZrO{sub 3} (CZO) and YSZ incorporation in the form of nanodots and nanorods within YBCO, indicating the broad applicability of the developed process. The process could also be used to incorporate self-assembled nanodots and nanorods within matrices of other materials for different applications, such as magnetic materials.

Research Organization:: Oak Ridge National Laboratory (ORNL)

Sponsoring Organization:: OE USDOE - Office of Electric Transmission and Distribution

DOE Contract Number:: AC05-00OR22725

OSTI ID:: 989542

Journal Information:: Superconductor Science & Technology, Journal Name: Superconductor Science & Technology Journal Issue: 11 Vol. 18; ISSN 0953-2048; ISSN 1361-6668

Country of Publication:: United States

Language:: English

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74 ATOMIC AND MOLECULAR PHYSICS
CRITICAL CURRENT
CURRENT DENSITY
DEFECTS
DISLOCATIONS
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HEAVY IONS
IONIZING RADIATIONS
MAGNETIC FIELDS
MAGNETIC FLUX
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Irradiation-Free, Columnar Defects Comprised of Self-Assembled Nanodots and Nanorods Resulting in Strongly Enhanced Flux-Pinning in YBa2Cu307-δ Films

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Irradiation-Free, Columnar Defects Comprised of Self-Assembled Nanodots and Nanorods Resulting in Strongly Enhanced Flux-Pinning in YBa₂Cu₃0_7-δ Films