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Sb
with a honeycomb network足立 匡*; Ogawa, Taiki*; 小宮山 陽太*; 須村 拓也*; Saito-Tsuboi, Yuki*; Takeuchi, Takaaki*; Mano, Kohei*; Manabe, Kaoru*; 川端 幸樹*; 今津 毅士*; et al.
Physical Review B, 111(10), p.L100508_1 - L100508_6, 2025/03
被引用回数:0 パーセンタイル:0.00(Materials Science, Multidisciplinary)Chiral superconductivity exhibits the formation of novel electron pairs that breaks the time-reversal symmetry and has been actively studied in various quantum materials in recent years. However, despite its potential to provide definitive information, effects of disorder in the crystal structure on the chiral superconductivity has not yet been clarified, and therefore the investigation using a solid-solution system is desirable. We report muon-spin-relaxation (
SR) results of layered pnictide BaPtAsSb with a honeycomb network composed of Pt and (As, Sb). We observed an increase of the zero-field SR rate in the superconducting (SC) state at the Sb end of 
, suggesting the occurrence of a spontaneous magnetic field due to the time-reversal symmetry breaking in the SC state. On the other hand, a spontaneous magnetic field was almost and completely suppressed for the As-Sb mixed samples of 
and 0.2, respectively, suggesting that the time-reversal symmetry-breaking SC state in is sensitive to disorder. The magnetic penetration depth estimated from transverse-field SR measurements at and 0.2 behaved like weak-coupling 
-wave superconductivity. These seemingly incompatible zero-field and transverse-field SR results of BaPtAsSb with could be understood in terms of chiral 
-wave superconductivity with point nodes on the three-dimensional Fermi surface.
浦 環*; 賞雅 寛而*; 西村 一*; 青木 太郎*; 上野 道雄*; 前田 俊夫*; 中村 溶透*; 島津 俊介*; 徳永 三伍*; 柴田 陽三*; et al.
JAERI-Tech 2001-049, 154 Pages, 2001/07
JAERI-Tech-2001-049.pdf:11.24MB
原研では、改良舶用炉の設計研究の一環として、北極海を主な調査海域とする原子動力海中航行観測船の検討及び搭載する超小型原子炉SCRの検討を行っている。本報告書は、船体設計、音響測位、船体運動、海洋調査等の専門家による原子動力海中航行観測船の運航条件及び運航システムの検討結果を示したものである。わが国の潜水船の船体運動に関する設計条件を調査するとともに、北極海における調査活動を想定して水中航行時及び水上航行時の船体運動を推定した。また、想定した船体運動が超小型原子炉SCRの出力に与える影響を評価した。運航システムとしては氷の下での活動を想定して、海底トランスポンダ方式及び氷上通信ブイ方式による測位及び通信方法を検討し、トランスポンダまたは通信ブイの設置間隔を130kmと定めた。また、船体及び原子炉の事故事象を整理して、安全確保の方法を検討した。これらの検討は原子動力海中航行船の概念に反映され、今後の検討課題が明らかとなった。
Sb
今津 毅士; 古谷 直也*; 足立 匡*; 工藤 一貴*; 今井 剛樹*; 御領 潤*
no journal, ,
Chiral superconductivity is one of the topological superconducting states with spontaneous time-reversal symmetry breaking (TRSB). SrPtAs is one of compounds of the layered honeycomb network superconductors and shows TRSB. It is suggested that the chiral d-wave superconducting state is the most plausible candidate of pairing symmetry. Recently the honeycomb superconductor BaPtAsSb with broken inversion symmetry was discovered. 
shows non-monotonic behavior with increasing 
and the TRSB is observed only at =1. We then pursue a scenario where the pairing symmetry is changed from a TRSB state to another one by changing the Sb-concentration. We found that the chiral -wave state with TRSB could be a plausible pairing symmetry in BaPtSb, and the conventional -wave and the line nodal f-wave were competitive in BaPtAs.
