May Hsim Lai scite author profile

May Hsim Lai

3Publications

3Citation Statements Received

74Citation Statements Given

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University of Cambridge, University of Giessen

Publications

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Strong pinning at high growth rates in rare earth barium cuprate (REBCO) superconductor films grown with liquid-assisted processing (LAP) during pulsed laser deposition

Feighan

Lai

Kuršumović

et al. 2021

Supercond. Sci. Technol.

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We present a simple liquid-assisted processing (LAP) method, to be used in situ during pulsed laser deposition growth to give both rapid growth rates (50 Hz deposition leading to >250 nm min−1 with a single plume) and strong pinning (improved ×5–10 at 30 K and below, over plain standard YBCO films grown at similar rates). Achieving these two important features simultaneously has been a serious bottleneck to date and yet for applications, it is critical to overcome it. The new LAP method uses a non-stoichiometric target composition, giving rise to a small volume fraction of liquid phase during film growth. LAP enhances the kinetics of the film growth so that good crystalline perfection can be achieved at up to 60× faster growth rates than normal, while also enabling artificial pinning centres to be self-assembled into fine nanocolumns. In addition, LAP allows for RE mixing (80% of Y with 20% of Yb, Sm, or Yb + Sm), creating effective point-like disorder pinning centres within the rare earth barium cuprate lattice. Overall, LAP is a simple method for use in pulsed laser deposition, and it can also be adopted by other in situ physical or vapour deposition methods (i.e. MOCVD, evaporation, etc) to significantly enhance both growth rate and performance.

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Investigation of the homogeneity of thin high-Tc superconducting films

Flegel

Neeb

Lai

et al. 1993

Physica C: Superconductivity

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Strong pinning at high growth rates in Rare Earth Barium Cuprate

Feighan¹,

Lai²,

Kuršumović³

et al. 2020

Preprint

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May Hsim Lai

Strong pinning at high growth rates in rare earth barium cuprate (REBCO) superconductor films grown with liquid-assisted processing (LAP) during pulsed laser deposition

Investigation of the homogeneity of thin high-Tc superconducting films

Strong pinning at high growth rates in Rare Earth Barium Cuprate

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