Spin fluctuation theory for quantum tricritical point arising in proximity to first-order phase transitions: Applications to heavy-fermion systems, YbRh2Si2, CeRu2Si2, and β-YbAIB4

Takahiro Misawa*, Youhei Yamaji, Masatoshi Imada

*この研究の対応する著者

研究成果: Article査読

50 被引用数 (Scopus)

抄録

We propose a phenomenological spin fluctuation theory for antiferromagnetic quantum tricritical point (QTCP), where a first-order phase transition changes into a continuous transition at zero temperature. Under magnetic fields, ferromagnetic quantum critical fluctuations develop around the antiferromagnetic QTCP in addition to antiferromagnetic fluctuations, which is in sharp contrast with the conventional antiferromagnetic quantum critical point. For itinerant electron systems, we show that the temperature dependence of critical magnetic fluctuations around the QTCP is given as χ q T-3/20 T-3/4) at the antiferromagnetic ordering (ferromagnetic) wave number q = Q (q = 0). The convex temperature dependence of χ 0-1 is a characteristic feature of the QTCP, which has never been seen in the conventional spin fluctuation theory. We propose a general theory of quantum tricriticality that has nothing to do with the specific Kondo physics itself, and solves puzzles of quantum criticalities widely observed in heavyfermion systems such as YbRh 2Si 2, CeRu 2Si 2, and β-YbAlB 4. For YbRh 2Si 2, our theory successfully reproduces quantitative behaviors of the experimentally obtained ferromagnetic susceptibility and magnetization curve when suitable phenomenological parameters are chosen. The quantum tricriticality is also consistent with singularities of other physical properties such as specific heat, nuclear magnetic relaxation time 1/T 1T, and the Hall coefficient. For CeRu 2Si 2 and β-YbAlB 4, we point out that the quantum tricriticality is a possible origin of the anomalous diverging enhancement of the uniform susceptibility observed in these materials.

本文言語English
論文番号084707
ジャーナルjournal of the physical society of japan
78
8
DOI
出版ステータスPublished - 2009 8月 1
外部発表はい

ASJC Scopus subject areas

  • 物理学および天文学(全般)

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