Hydrostatic Compression Effects on Fifth-Group Element Superconductors V, Nb, and Ta Subjected to High-Pressure Torsion

Mito, Masaki; Shigeoka, Shun; Kondo, Hayato; Noumi, Nozomi; Kitamura, Yuichiro; Irie, Kunihiko; Nakamura, Kazuma; Takagi, Seishi; Deguchi, Hiroyuki; Tajiri, Takayuki; Ishizuka, Masanori; Nishizaki, Terukazu; Edalati, Kaveh; Horita, Zenji

doi:10.2320/matertrans.mf201932

Cited by 18 publications

(5 citation statements)

References 63 publications

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“…Therefore with increasing the frequency of H ac , the intensity of background signal increases and broad humps appear over a wider temperature range. Indeed, most of the metallic background contributions appeared in m (out of phase for H ac ), while the magnetic signal of Er and Tm mainly appeared in m (in phase for H ac ) [37,[40][41][42][43][44][45][46][47]. Even if utilizing favorable phase separation, in the M ac measurement using DAC, discerning between the two anomalies for Er and Tm is more challenging because of small T N signal, compared to previous experiments involving Gd-Ho [11].…”

Section: Methodsmentioning

confidence: 90%

High pressure studies of the T−P phase diagrams of erbium and thulium up to 30 GPa by using ac magnetization experiments

Mito,

Kimura,

Campo

2024

Phys. Rev. B

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The pressure dependence of the magnetic ordering temperatures for lanthanide ferromagnets Er and Tm has been investigated in the pressure region of up to 30 GPa through ac magnetization measurements by employing a superconducting quantum interference device. Six 4 f lanthanide ferromagnets, from Gd to Tm, commonly have successive structural transitions starting from a hexagonal close-packed (hcp) structure under pressure. The experiments reported here have been performed with high sensitivity to allow for a more comprehensive discussion of the magnetostructural correlation when compared to four other 4 f ferromagnets, namely Gd, Tb, Dy, and Ho. Our results conclude that only Er exhibits the increase in ferromagnetic ordering temperature against initial compression among the six lanthanide ferromagnets. The ferromagnetic magnetization anomaly for Er reduces below the detection limit before the structural transformation from Sm-type to the dhcp structures, and that for Tm exhibits similar behavior before the structure transformation from the hcp to Sm-type structures. However, the helimagnetic magnetization anomalies of both Er and Tm remain stable at least within the Sm-type structure below 30 GPa.

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Section: Methodsmentioning

confidence: 90%

High pressure studies of the T−P phase diagrams of erbium and thulium up to 30 GPa by using ac magnetization experiments

Mito,

Kimura,

Campo

2024

Phys. Rev. B

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“…The SPD field experienced significant progress in the past three decades, as discussed in several review papers [ 124 , 125 , 126 , 127 , 128 , 129 ], and more recently in a special issue in 2019 [ 130 ], which gathered overviews on both historical developments [ 131 ] and recent advancements [ 132 ]. A survey of these overviews indicates that despite significant progress on theoretical aspects [ 133 , 134 ], mechanisms [ 135 , 136 ], processing [ 137 , 138 , 139 , 140 , 141 , 142 , 143 , 144 ], microstructure [ 145 , 146 , 147 , 148 , 149 ], and mechanical properties [ 150 , 151 , 152 , 153 , 154 , 155 ] of metallic materials, there is a recent tendency to apply SPD to a wider range of materials (oxides [ 156 ], semiconductors [ 157 ], carbon polymorphs [ 158 ], glasses [ 159 ], and polymers [ 160 ]) to control phase transformations [ 161 ] and solid-state reaction [ 162 , 163 , 164 ] for achieving advanced functional properties [ 165 , 166 , 167 , 168 , 16...…”

Section: Discussion On Future Outlookmentioning

confidence: 99%

Advanced Photocatalysts for CO2 Conversion by Severe Plastic Deformation (SPD)

et al. 2023

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Excessive CO2 emission from fossil fuel usage has resulted in global warming and environmental crises. To solve this problem, the photocatalytic conversion of CO2 to CO or useful components is a new strategy that has received significant attention. The main challenge in this regard is exploring photocatalysts with high efficiency for CO2 photoreduction. Severe plastic deformation (SPD) through the high-pressure torsion (HPT) process has been effectively used in recent years to develop novel active catalysts for CO2 conversion. These active photocatalysts have been designed based on four main strategies: (i) oxygen vacancy and strain engineering, (ii) stabilization of high-pressure phases, (iii) synthesis of defective high-entropy oxides, and (iv) synthesis of low-bandgap high-entropy oxynitrides. These strategies can enhance the photocatalytic efficiency compared with conventional and benchmark photocatalysts by improving CO2 adsorption, increasing light absorbance, aligning the band structure, narrowing the bandgap, accelerating the charge carrier migration, suppressing the recombination rate of electrons and holes, and providing active sites for photocatalytic reactions. This article reviews recent progress in the application of SPD to develop functional ceramics for photocatalytic CO2 conversion.

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“…Herein, the compressive stress allows only the diagonal components in the strain tensor, whereas the shear strain leads to the nondiagonal components and plays an imperative role in generating possible crystal structures that realize a strain-induced superconducting state. In earlier studies, HPT processing of Re 21 and Nb 22 – 24 stabilized the superconductivity, and the increase in T c for Re was due to the increase of the density of states (DOS) at the Fermi level with the expansion of the unit cell volume 21 , and that for Nb also to the DOS increase with the deformation of the unit cell 22 – 24 . In general, shear strain is known to introduce not only such simple structural deformations but also an accumulation of dislocations and leads to the formation of a fine-grained structure, resulting in a long-lived quasi-stable state even after releasing stress 25 , 26 .…”

Section: Introductionmentioning

confidence: 89%

Superconductivity of barium with highest transition temperatures in metallic materials at ambient pressure

Mito,

Tsuji,

Tajiri

et al. 2024

Sci Rep

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Pressure-induced superconductivity often occurs following structural transition under hydrostatic pressure (PHP) but disappears after the pressure is released. In the alkali-earth metal barium, superconductivity appears after structural transformation from body-centered cubic structure to hexagonal-close-packed (hcp) structure at PHP = 5 GPa, and the superconducting transition temperature (Tc) reaches a maximum of 5 K at PHP = 18 GPa. Furthermore, by stabilizing the low-temperature phase at PHP ~ 30 GPa, Tc reached a higher level of 8 K. Herein, we demonstrate a significantly higher Tc superconductivity in Ba even at ambient pressure. This was made possible through severe plastic deformation of high-pressure torsion (HPT). In this HPT-processed Ba, we observed superconductivity at Tc = 3 K and Tc = 24 K in the quasi-stabilized hcp and orthorhombic structures, respectively. In particular, the latter Tc represents the highest value achieved at ambient pressure among single-element superconducting metals, including intermetallics. The phenomenon is attributed to a strained high-pressure phase, stabilized by residual strains generated from lattice defects such as dislocations and grain boundaries. Significantly, the observed Tc far exceeds predictions from DFT calculations under normal hydrostatic compressions. The study demonstrates the importance of utilizing high-pressure strained phases as quasi-stable superconducting states at ambient pressure.

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Hydrostatic Compression Effects on Fifth-Group Element Superconductors V, Nb, and Ta Subjected to High-Pressure Torsion

Cited by 18 publications

References 63 publications

High pressure studies of the T−P phase diagrams of erbium and thulium up to 30 GPa by using ac magnetization experiments

High pressure studies of the T−P phase diagrams of erbium and thulium up to 30 GPa by using ac magnetization experiments

Advanced Photocatalysts for CO2 Conversion by Severe Plastic Deformation (SPD)

Superconductivity of barium with highest transition temperatures in metallic materials at ambient pressure

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