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藤原 秀紀*; 中谷 泰博*; 荒谷 秀和*; 金井 惟奈*; 山神 光平*; 濱本 諭*; 木須 孝幸*; 関山 明*; 田中 新*; 海老原 孝雄*; et al.
New Physics; Sae Mulli, 73(12), p.1062 - 1066, 2023/12
We have performed soft X-ray absorption spectroscopy (XAS) on the heavy fermion superconductor CeNiGe to examine the local 4 electronic structure. The XAS spectra are qualitatively explained by ionic calculations, indicating a degree of localized character of the 4 states, while sizable -hybridization effects are also observed in the XAS spectra and those magnetic circular dichroism. In addition, the temperature dependence of linear dichroism in the XAS spectra indicates that the ground state symmetry is , and the excited states with symmetry is above 390 K.
藤原 秀紀*; 中谷 泰博*; 荒谷 秀和*; 金井 惟奈*; 山神 光平*; 濱本 諭*; 木須 孝幸*; 山崎 篤志*; 東谷 篤志*; 今田 真*; et al.
Physical Review B, 108(16), p.165121_1 - 165121_10, 2023/10
被引用回数:0 パーセンタイル:0(Materials Science, Multidisciplinary)We report the ground-state symmetry of the Ce 4 states in the heavy-fermion superconductor CeNiGe, yielding anisotropic hybridization between the Ce 4 states and conducting electrons. By analyzing linear dichroism in soft X-ray absorption and core-level hard X-ray photoemission spectra, the 4 symmetry is determined as -type , promoting predominant hybridization with the conducting electrons originating from the Ge site. The band structures probed by soft X-ray angle-resolved photoemission indicates that the Ge 4 components contribute to the band renormalization through the anisotropic hybridization effects, suggesting that the control of the electronic structures of Ge orbital gives an impact to achieve the exotic phenomena in CeNiGe.
中谷 泰博*; 荒谷 秀和*; 藤原 秀紀*; 森 健雄*; 鶴田 篤史*; 橘 祥一*; 山口 貴司*; 木須 孝幸*; 山崎 篤志*; 保井 晃*; et al.
Physical Review B, 97(11), p.115160_1 - 115160_7, 2018/03
被引用回数:5 パーセンタイル:25.53(Materials Science, Multidisciplinary)We present clear experimental evidence for the momentum-dependent heavy fermionic electronic structures of the 4-based strongly correlated system CeNiGe by soft X-ray angle-resolved photoemission spectroscopy. A comparison between the experimental three-dimensional quasiparticle dispersion of LaNiGe and CeNiGe has revealed that heavy fermionic electronic structures are seen in the region surrounding at a specific momentum. Furthermore, the wave vectors between the observed "heavy spots" are consistent with a result of neutron scattering reflecting magnetic correlations, which could be a trigger of the superconductivity in CeNiGe.