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SR study on the noncentrosymmetric superconductor NbGe
Jiao, J. C.*; Chen, K. W.*; Hillier, A. D.*; 伊藤 孝; 髭本 亘; Li, Z.*; Lv, B.*; Xu, Z.-A.*; Shu, L.*
Physical Review B, 110(21), p.214516_1 - 214516_9, 2024/12
被引用回数:0 パーセンタイル:0.00(Materials Science, Multidisciplinary)We report on a muon spin relaxation (SR) study on the polycrystalline noncentrosymmetric superconductor NbGe with superconducting transition temperature 
= 2.0-2.1 K. The zero-field SR experiment indicates the absence of a spontaneous magnetic field in the superconducting state, showing the preservation of time-reversal symmetry in the superconducting state. The transverse-field SR experiment is performed to map the phase diagram of NbGe, from which clear evidence of both type-I and type-II superconductivities is obtained. More importantly, we clearly delineate the region in the phase diagram where type-I and type-II superconductivities coexist.
= 
quasikagome-lattice compound CeRh
Pd
Sn investigated using muon spin relaxation and neutron scatteringTripathi, R.*; Adroja, D. T.*; Ritter, C.*; Sharma, S.*; Yang, C.*; Hillier, A. D.*; Koza, M. M.*; Demmel, F.*; Sundaresan, A.*; Langridge, S.*; et al.
Physical Review B, 106(6), p.064436_1 - 064436_17, 2022/08
被引用回数:8 パーセンタイル:58.42(Materials Science, Multidisciplinary)We present the results of muon spin relaxation (SR) and neutron scattering measurements on the Ce-based quasikagome lattice CeRhPdSn (
= 0.1 to 0.75). Our SR results reveal the absence of both static long-range magnetic order and spin freezing down to 0.05 K in the = 0.1 sample, which is consistent with neutron scattering results. The weak temperature-dependent plateaus of the dynamic spin fluctuations below 0.2 K in zero field together with its longitudinal-field (LF) dependence indicate the presence of dynamic spin fluctuations persisting even at 0.05 K without static magnetic order. We argue that such a behavior for = 0.1 can be attributed to a metallic spin-liquid-like ground state near the quantum critical point in the frustrated Kondo lattice. The LF-SR study suggests that the out of kagome plane spin fluctuations are responsible for the spin-liquid behavior.
Ru)
Sb
and Pr
La
OsSbShu, L.*; 髭本 亘; 青木 勇二*; Hillier, A. D.*; 大石 一城*; 石田 憲二*; 門野 良典*; 幸田 章宏*; Bernal, O. O.*; MacLaughlin, D. E.*; et al.
Physical Review B, 83(10), p.100504_1 - 100504_4, 2011/03
被引用回数:35 パーセンタイル:77.08(Materials Science, Multidisciplinary)時間反転対称性(TRS)の破れた超伝導状態について調べるため、Pr(OsRu)SbとPrLaOsSb合金において零磁場ミュオンスピン緩和測定を行った。TRSは自発的な局所磁場の発生で知ることができる。両合金において磁場は最初は減少したが、Ru置換系ではLa置換系に比べて50%速い現象がみられた。この結果から、TRSは
で抑制されるが、La置換系ではすべての濃度において残ることが明らかになった。この結果は結晶場励起子によるクーパー対形成によるTRSの破れた超伝導機構を支持するものである。
Pr nuclear spin dynamics in Pr(Os,Ru)Sb and (Pr,La)OsSbShu, L.*; MacLaughlin, D. E.*; 青木 勇二*; 綱島 慶乃*; 米澤 祐樹*; 真田 祥太郎*; 菊地 大輔*; 佐藤 英行*; Heffner, R. H.; 髭本 亘; et al.
Physical Review B, 76(1), p.014527_1 - 014527_8, 2007/07
被引用回数:22 パーセンタイル:64.93(Materials Science, Multidisciplinary)Zero- and longitudinal-field muon spin relaxation experiments have been carried out in the alloy series Pr(OsRu)Sb and PrLaOsSb to elucidate the anomalous dynamic muon spin relaxation observed in these materials. The damping rate 
associated with this relaxation varies with temperature, applied magnetic field, and dopant concentrations and 
in a manner consistent with the "hyperfine enhancement" of Pr nuclear spins. This mechanism arises from Van Vleck-like admixture of magnetic Pr
crystalline-electric-field-split excited states into the nonmagnetic singlet ground state by the nuclear hyperfine coupling, thereby increasing the strengths of spin-spin interactions between Pr and muon spins and within the Pr spin system. We find qualitative agreement with this scenario and conclude that electronic spin fluctuations are not directly involved in the dynamic muon spin relaxation.
