High critical current density and high-tolerance superconductivity in high-entropy alloy thin films

Jung, Soon‐Gil; Han, Yoon Hee; Kim, Jin Hee; Hidayati, Rahmatul; Rhyee, Jong‐Soo; Lee, Jung Min; Kang, Won Nam; Choi, Woo Seok; Jeon, Hye-ran; Suk, Jaekwon; Park, Tuson

doi:10.21203/rs.3.rs-1220945/v1

2022

DOI: 10.21203/rs.3.rs-1220945/v1

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High critical current density and high-tolerance superconductivity in high-entropy alloy thin films

Soon‐Gil Jung

Yoon Hee Han

Jin Hee Kim

et al.

Abstract: High-entropy alloy (HEA) superconductors—a new class of functional materials—can be utilized stably under extreme conditions, such as in space environments, owing to their high mechanical hardness and excellent irradiation tolerance1–7. However, the feasibility of practical applications of HEA superconductors has not yet been demonstrated because the critical current density (Jc) for HEA superconductors has not yet been adequately characterized. Here, we report the fabrication of high-quality SC thin films of … Show more

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Effects of alloying and deposition temperature on phase formation and superconducting properties of TiZrTaNb-based high entropy-alloy films

Shu

Zhang

Rao

et al. 2022

Applied Physics Letters

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A variety of bulk high-entropy alloy superconductors have been recently discovered; however, for thin films, only the TaNbHfZrTi high-entropy alloy system has been investigated for its superconducting properties. Here, (TiZrNbTa)1−xWx and (TiZrNbTa)1−xVx superconducting films have been produced by DC magnetron sputtering at different growth temperatures. The phase formation and superconducting behavior of these films depend on the content of alloying x and deposition temperature. A single body-centered cubic (bcc) phase can be formed in the low x range with enough driving energy for crystallinity, but phase transition between amorphous or two bcc structures is observed when increasing x. The highest superconducting transition temperature Tc reaches 8.0 K for the TiZrNbTa film. The superconducting transition temperature Tc of these films deposited at the same temperature decreases monotonically as a function of x. Increasing deposition temperature to 400 °C can enhance Tc for these films while retaining nearly equivalent compositions. Our experimental observations suggest that Tc of superconducting high entropy alloys relate to the atomic radii difference and electronegativity difference of involved elements beyond the valence electron number.

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Effects of alloying and deposition temperature on phase formation and superconducting properties of TiZrTaNb-based high entropy-alloy films

Shu

Zhang

Rao

et al. 2022

Applied Physics Letters

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show abstract

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High critical current density and high-tolerance superconductivity in high-entropy alloy thin films

Cited by 1 publication

References 31 publications

Effects of alloying and deposition temperature on phase formation and superconducting properties of TiZrTaNb-based high entropy-alloy films

Effects of alloying and deposition temperature on phase formation and superconducting properties of TiZrTaNb-based high entropy-alloy films

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