Multipole fluctuations of itinerant f electrons and triakontadipole order in URu2Si2

Hiroaki Ikeda; Michito Suzuki; Ryotaro Arita; Tetsuya Takimoto

doi:10.1016/j.crhy.2014.07.002

Multipole fluctuations of itinerant f electrons and triakontadipole order in URu₂Si₂

Hiroaki Ikeda, Michito Suzuki, Ryotaro Arita, Tetsuya Takimoto

Research output: Contribution to journal › Short survey › peer-review

2 Citations (Scopus)

Abstract

Novel electronic states are hallmarks of strongly correlated f-electron systems. The spin-orbital coupled degrees of freedom can lead to an exotic type of multipole hidden order (HO). A well-known HO is observed at the 17.5 K phase transition in URu₂Si₂, which is a long-standing mystery since its discovery in 1985. The dominating itinerant character of the 5f electrons complicates a theoretical description of this phenomenon. Here we review recent progress on a first-principles theoretical approach that allows catching the itinerant feature of f electrons. We show that in the itinerant 5f-electron model of URu₂Si₂, the most divergent multipole susceptibility indicates an instability to a triakontadipole order, with a doubly degenerate E-type symmetry. This itinerant-type multipole order is consistent with key features in the HO state, including the broken fourfold rotational symmetry observed in recent experiments.

Original language	English
Pages (from-to)	587-598
Number of pages	12
Journal	Comptes Rendus Physique
Volume	15
Issue number	7
DOIs	https://doi.org/10.1016/j.crhy.2014.07.002
Publication status	Published - 2014 Aug 1
Externally published	Yes

Keywords

Hidden order
Multipolar fluctuations
Multipolar order
URuSi

ASJC Scopus subject areas

Physics and Astronomy(all)

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title = "Multipole fluctuations of itinerant f electrons and triakontadipole order in URu2Si2 ",

abstract = "Novel electronic states are hallmarks of strongly correlated f-electron systems. The spin-orbital coupled degrees of freedom can lead to an exotic type of multipole hidden order (HO). A well-known HO is observed at the 17.5 K phase transition in URu2Si2, which is a long-standing mystery since its discovery in 1985. The dominating itinerant character of the 5f electrons complicates a theoretical description of this phenomenon. Here we review recent progress on a first-principles theoretical approach that allows catching the itinerant feature of f electrons. We show that in the itinerant 5f-electron model of URu2Si2, the most divergent multipole susceptibility indicates an instability to a triakontadipole order, with a doubly degenerate E-type symmetry. This itinerant-type multipole order is consistent with key features in the HO state, including the broken fourfold rotational symmetry observed in recent experiments.",

keywords = "Hidden order, Multipolar fluctuations, Multipolar order, URuSi",

author = "Hiroaki Ikeda and Michito Suzuki and Ryotaro Arita and Tetsuya Takimoto",

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doi = "10.1016/j.crhy.2014.07.002",

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TY - JOUR

T1 - Multipole fluctuations of itinerant f electrons and triakontadipole order in URu2Si2

AU - Ikeda, Hiroaki

AU - Suzuki, Michito

AU - Arita, Ryotaro

AU - Takimoto, Tetsuya

PY - 2014/8/1

Y1 - 2014/8/1

N2 - Novel electronic states are hallmarks of strongly correlated f-electron systems. The spin-orbital coupled degrees of freedom can lead to an exotic type of multipole hidden order (HO). A well-known HO is observed at the 17.5 K phase transition in URu2Si2, which is a long-standing mystery since its discovery in 1985. The dominating itinerant character of the 5f electrons complicates a theoretical description of this phenomenon. Here we review recent progress on a first-principles theoretical approach that allows catching the itinerant feature of f electrons. We show that in the itinerant 5f-electron model of URu2Si2, the most divergent multipole susceptibility indicates an instability to a triakontadipole order, with a doubly degenerate E-type symmetry. This itinerant-type multipole order is consistent with key features in the HO state, including the broken fourfold rotational symmetry observed in recent experiments.

AB - Novel electronic states are hallmarks of strongly correlated f-electron systems. The spin-orbital coupled degrees of freedom can lead to an exotic type of multipole hidden order (HO). A well-known HO is observed at the 17.5 K phase transition in URu2Si2, which is a long-standing mystery since its discovery in 1985. The dominating itinerant character of the 5f electrons complicates a theoretical description of this phenomenon. Here we review recent progress on a first-principles theoretical approach that allows catching the itinerant feature of f electrons. We show that in the itinerant 5f-electron model of URu2Si2, the most divergent multipole susceptibility indicates an instability to a triakontadipole order, with a doubly degenerate E-type symmetry. This itinerant-type multipole order is consistent with key features in the HO state, including the broken fourfold rotational symmetry observed in recent experiments.

KW - Hidden order

KW - Multipolar fluctuations

KW - Multipolar order

KW - URuSi

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