High tolerance of the superconducting current to large grain boundary angles in potassium-doped BaFe2As2

Takafumi Hatano; Dongyi Qin; Kazumasa Iida; Hongye Gao; Zimeng Guo; Hikaru Saito; Satoshi Hata; Yusuke Shimada; Michio Naito; Akiyasu Yamamoto

doi:10.1038/s41427-024-00561-9

High tolerance of the superconducting current to large grain boundary angles in potassium-doped BaFe₂As₂

Takafumi Hatano, Dongyi Qin, Kazumasa Iida, Hongye Gao, Zimeng Guo, Hikaru Saito, Satoshi Hata, Yusuke Shimada, Michio Naito, Akiyasu Yamamoto

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Superconducting magnets based on high-temperature superconductors (HTSs) have become critical components in cutting-edge technologies such as advanced medical applications. In HTSs, weak links of superconductivity are inevitable at high-angle grain boundaries (GBs). Thus, two adjacent grains should be crystallographically aligned within the critical angle (θ_c), for which the intergrain critical current density (J_c) starts to decrease exponentially. The θ_c of several iron-based superconductors (IBSs) is larger than that of cuprates. However, the decreases in both θ_c and intergrain J_c under magnetic fields for IBSs are still substantial, hampering their applications in polycrystalline forms. Here, we report that potassium-doped BaFe₂As₂ (Ba122:K) exhibits superior GB performance to that of previously reported IBSs. A transport J_c of over 0.1 MA/cm² across [001]-tilt GBs with misorientation angles up to θ_GB = 24° was recorded even at 28 K, which is a required level for practical applications. Additionally, even in an applied magnetic field, θ_c was unaltered, and the decay of the intergrain J_c was small. Our results highlight the exceptional potential of Ba122:K for polycrystalline applications and pave the way for next-generation superconducting magnets.

Original language	English
Article number	41
Journal	NPG Asia Materials
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41427-024-00561-9
Publication status	Published - Dec 2024

All Science Journal Classification (ASJC) codes

Modelling and Simulation
General Materials Science
Condensed Matter Physics

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title = "High tolerance of the superconducting current to large grain boundary angles in potassium-doped BaFe2As2",

abstract = "Superconducting magnets based on high-temperature superconductors (HTSs) have become critical components in cutting-edge technologies such as advanced medical applications. In HTSs, weak links of superconductivity are inevitable at high-angle grain boundaries (GBs). Thus, two adjacent grains should be crystallographically aligned within the critical angle (θc), for which the intergrain critical current density (Jc) starts to decrease exponentially. The θc of several iron-based superconductors (IBSs) is larger than that of cuprates. However, the decreases in both θc and intergrain Jc under magnetic fields for IBSs are still substantial, hampering their applications in polycrystalline forms. Here, we report that potassium-doped BaFe2As2 (Ba122:K) exhibits superior GB performance to that of previously reported IBSs. A transport Jc of over 0.1 MA/cm2 across [001]-tilt GBs with misorientation angles up to θGB = 24° was recorded even at 28 K, which is a required level for practical applications. Additionally, even in an applied magnetic field, θc was unaltered, and the decay of the intergrain Jc was small. Our results highlight the exceptional potential of Ba122:K for polycrystalline applications and pave the way for next-generation superconducting magnets.",

author = "Takafumi Hatano and Dongyi Qin and Kazumasa Iida and Hongye Gao and Zimeng Guo and Hikaru Saito and Satoshi Hata and Yusuke Shimada and Michio Naito and Akiyasu Yamamoto",

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AU - Hatano, Takafumi

AU - Qin, Dongyi

AU - Iida, Kazumasa

AU - Gao, Hongye

AU - Guo, Zimeng

AU - Saito, Hikaru

AU - Hata, Satoshi

AU - Shimada, Yusuke

AU - Naito, Michio

AU - Yamamoto, Akiyasu

PY - 2024/12

Y1 - 2024/12

N2 - Superconducting magnets based on high-temperature superconductors (HTSs) have become critical components in cutting-edge technologies such as advanced medical applications. In HTSs, weak links of superconductivity are inevitable at high-angle grain boundaries (GBs). Thus, two adjacent grains should be crystallographically aligned within the critical angle (θc), for which the intergrain critical current density (Jc) starts to decrease exponentially. The θc of several iron-based superconductors (IBSs) is larger than that of cuprates. However, the decreases in both θc and intergrain Jc under magnetic fields for IBSs are still substantial, hampering their applications in polycrystalline forms. Here, we report that potassium-doped BaFe2As2 (Ba122:K) exhibits superior GB performance to that of previously reported IBSs. A transport Jc of over 0.1 MA/cm2 across [001]-tilt GBs with misorientation angles up to θGB = 24° was recorded even at 28 K, which is a required level for practical applications. Additionally, even in an applied magnetic field, θc was unaltered, and the decay of the intergrain Jc was small. Our results highlight the exceptional potential of Ba122:K for polycrystalline applications and pave the way for next-generation superconducting magnets.

AB - Superconducting magnets based on high-temperature superconductors (HTSs) have become critical components in cutting-edge technologies such as advanced medical applications. In HTSs, weak links of superconductivity are inevitable at high-angle grain boundaries (GBs). Thus, two adjacent grains should be crystallographically aligned within the critical angle (θc), for which the intergrain critical current density (Jc) starts to decrease exponentially. The θc of several iron-based superconductors (IBSs) is larger than that of cuprates. However, the decreases in both θc and intergrain Jc under magnetic fields for IBSs are still substantial, hampering their applications in polycrystalline forms. Here, we report that potassium-doped BaFe2As2 (Ba122:K) exhibits superior GB performance to that of previously reported IBSs. A transport Jc of over 0.1 MA/cm2 across [001]-tilt GBs with misorientation angles up to θGB = 24° was recorded even at 28 K, which is a required level for practical applications. Additionally, even in an applied magnetic field, θc was unaltered, and the decay of the intergrain Jc was small. Our results highlight the exceptional potential of Ba122:K for polycrystalline applications and pave the way for next-generation superconducting magnets.

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High tolerance of the superconducting current to large grain boundary angles in potassium-doped BaFe₂As₂

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