T. Kotaki scite author profile

We show that Xe ion irradiation with 80 MeV to GdBa2Cu3Oy-coated conductors creates different morphologies of columnar defects (CDs) depending on the irradiation angles θi relative to the c-axis: continuous CDs with a larger diameter are formed for oblique irradiation at θi = 45°, whereas the same ion beam at a different angle (θi = 0°) induces the formation of discontinuous CDs. The direction-dependent morphologies of CDs significantly affect the angular behavior of the critical current density Jc. In particular, low-energy irradiation defects induce further improvement of Jc in a unique combination of irradiation angles of θi = 0° and ±45°: discontinuous CDs at θi = 0° and crossed CDs at θi = ±45° provide correlated pinning in a wide angular range, which is more strongly enhanced by each other via the pinning of kinks.

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Angular dependence of critical current density and n-values in BaZrO3/YBa2Cu3Oy quasi-multilayered films with columnar defects

Sueyoshi

Kotaki

Fujiyoshi

et al. 2013

Physica C: Superconductivity

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Flux pinning properties in YBCO films with growth-controlled nano-dots and heavy-ion irradiation defects

Sueyoshi

Kotaki

Uraguchi

et al. 2016

Physica C: Superconductivity and its Applications

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Influence of nano-particle diameter on superconducting properties in BaMO3(M = Sn, Hf)/YBa2Cu3O quasi-multilayered films

Kotaki

Uraguchi

Makihara

et al. 2015

Physica C: Superconductivity and its Applications

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T. Kotaki

Influence of Discontinuous Columnar Defects on Flux Pinning Properties in GdBCO Coated Conductors

Strong flux pinning by columnar defects with directionally dependent morphologies in GdBCO-coated conductors irradiated with 80 MeV Xe ions

Angular dependence of critical current density and n-values in BaZrO3/YBa2Cu3Oy quasi-multilayered films with columnar defects

Flux pinning properties in YBCO films with growth-controlled nano-dots and heavy-ion irradiation defects

Influence of nano-particle diameter on superconducting properties in BaMO3(M = Sn, Hf)/YBa2Cu3O quasi-multilayered films

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