Quadrupole-driven non-Fermi-liquid and magnetic-field-induced heavy fermion states in a non-Kramers doublet system

Onimaru, Takahiro; Izawa, K.; Matsumoto, Keisuke; Yoshida, Toru; Machida, Yo; Ikeura, T.; Wakiya, Kazuhei; Umeo, Kazunori; Kittaka, Shunichiro; Araki, Koji; Sakakibara, Toshiro; Takabatake, Toshiro

doi:10.1103/physrevb.94.075134

Cited by 67 publications

(57 citation statements)

References 49 publications

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“…Pressure enhances the superconductivity 46 , which is almost certainly unconventional. The in-field phase diagrams are even more interesting, as there is an intermediate heavy Fermi liquid region in all three materials, sandwiched between the zerofield order and a fully polarized high field state where all Kondo physics is lost 47,48 .…”

Section: B Relevant Pr-based Materialsmentioning

confidence: 99%

Cubic hastatic order in the two-channel Kondo-Heisenberg model

2018

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Materials with non-Kramers doublet ground states naturally manifest the two-channel Kondo effect, as the valence fluctuations are from a non-Kramers doublet ground state to an excited Kramers doublet. Here, the development of a heavy Fermi liquid requires a channel symmetry breaking spinorial hybridization that breaks both single and double time-reversal symmetry, and is known as hastatic order. Motivated by cubic Pr-based materials with Γ3 non-Kramers ground state doublets, this paper provides a survey of cubic hastatic order using the simple two-channel Kondo-Heisenberg model. Hastatic order necessarily breaks time-reversal symmetry, but the spatial arrangement of the hybridization spinor can be either uniform (ferrohastatic) or break additional lattice symmetries (antiferrohastatic). The experimental signatures of both orders are presented in detail, and include tiny conduction electron magnetic moments. Interestingly, there can be several distinct antiferrohastatic orders with the same moment pattern that break different lattice symmetries, revealing a potential experimental route to detect the spinorial nature of the hybridization. We employ an SU(N) fermionic mean-field treatment on square and simple cubic lattices, and examine how the nature and stability of hastatic order varies as we vary the Heisenberg coupling, conduction electron density, band degeneracies, and apply both channel and spin symmetry breaking fields. We find that both ferrohastatic and several types of antiferrohastatic orders are stabilized in different regions of the mean-field phase diagram, and evolve differently in strain and magnetic fields.

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Section: B Relevant Pr-based Materialsmentioning

confidence: 99%

Cubic hastatic order in the two-channel Kondo-Heisenberg model

2018

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“…Details of the nuclear contribution will be published elsewhere. that the downward variation of ρ(T ) around the broad shoulder cannot be explained by formation of the quadrupole Kondo lattice [9,12] and the single-site quadrupole Kondo effect [14]. Moreover, as shown in the inset of Fig.…”

Section: Resultsmentioning

confidence: 86%

“…Recently, the coexistence of quadrupole order and superconductivity was observed in PrT 2 Zn 20 (T = Ir, Rh) and PrT 2 Al 20 (T = Ti, V), which suggests that the superconducting pair could be mediated by quadrupole fluctuations [8]. Furthermore, non-Fermi liquid (NFL) behaviors were observed not only in PrIr 2 Zn 20 [9] and PrRh 2 Zn 20 [10] but also in the diluted Pr system Y(Pr)Ir 2 Zn 20 [11,13], indicating a possible manifestation of the quadrupole Kondo effect [14]. As described above, the intensive works on the 4 f 2 systems have revealed a wide variety of phenomena due to the interactions between the multipolar degrees of freedom of the 4 f 2 electrons and conduction electrons.…”

Section: Introductionmentioning

confidence: 99%

Effects of Magnetic Field on the Nonmagnetic Doublet Ground State in PrMgNi₄

Kusanose

Onimaru

Park

et al. 2020

Proceedings of the International Conference on Strongly Correlated Electron Systems (SCES2019)

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Specific heat and electrical resistivity ρ of a cubic PrMgNi 4 were measured in magnetic fields B up to 14 T and 5 T, respectively. The magnetic specific heat C m for B = 0 exhibits a broad maximum at 5 K, which can be reproduced by a doublet-triplet two-level model, indicating the Γ 3 doublet ground state for the Pr 3+ ion under the cubic crystalline electric field (CEF). With applying B along the [100] axis, the maximum shifts to the higher temperature of 9 K at 14 T with raising the absolute value. On the other hand, in B || [110], the maximum of C m shifts to 10 K at 14 T, although the absolute value is not enhanced so much. This anisotropic behavior can be moderately reproduced by Schottky specific heat arising from splitting of the ground state doublet. Moreover, a maximum of C m at 1.5 K in B || [110] predicted from the CEF calculation does not appear, indicating possible quadrupole fluctuations in the ground state doublet due to the c-f hybridization. At around 0.7 K, both C m (T) and ρ(T) exhibit anomalies, which shift to higher temperatures with increasing B. It may arise from development of intersite correlation of the degrees of freedom in the ground state doublet.

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“…These materials provide an ideal setting to resolve the role of the quadrupolar Kondo effect and explore hastatic order within a simpler setting. Several exhibit a dome of heavy Fermi liquid at finite magnetic fields 33,34 that is consistent with field-induced hastatic order.…”

Section: Introductionmentioning

confidence: 71%

“…Adding this H Q,M F to our FH mean-field Hamiltonian, we obtain the free energy and solve the saddle point equations, ∂F/∂λ = ∂F/∂µ = ∂F/∂b = ∂F/∂Q = 0; note that the AFQ mean-field is not justified within the SU (N ) large-N limit, and this mean-field theory is therefore not controlled. At zero and small fields, the Pr(Ir,Rh) 2 Zn 20 compounds order quadrupolarly, giving way to heavy Fermi liquid behavior at intermediate fields 33,34 . We qualitatively reproduce this behavior in our self-consistently calculated mean-field phase diagrams for FH and AFQ ansatze in magnetic field, shown in Fig.…”

Section: Competition With Antiferroquadrupolar Ordermentioning

confidence: 99%

Field-induced ferrohastatic phase in cubic non-Kramers doublet systems

2019

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Cubic Pr-based compounds with Γ3 non-Kramers doublet ground states can realize a novel heavy Fermi liquid with spinorial hybridization ('hastatic' order) that breaks time reversal symmetry. Several Pr-"1-2-20" materials exhibit a suggestive heavy Fermi liquid stabilized in intermediate magnetic fields; these provide key insight into the quadrupolar Kondo lattice. We develop a simple, yet realistic microscopic model of ferrohastatic order, and elaborate its experimental signatures and behavior in field, where it is a good candidate to explain the observed heavy Fermi liquids at intermediate fields in Pr(Ir,Rh)2Zn20. In addition, we develop the Landau theory of ferrohastatic order, which allows us to understand its behavior close to the transition and explore thermodynamic signatures from magnetic susceptibility to thermal expansion. A. Pr-based 1-2-20 materials detailsKondo physics in Pr-based materials is rare, but the 1-2-20 materials, PrT 2 X 20 , have atypically strong cf hybridization 17,35 , as the Pr ions sit within Frank-Kasper cages of 16 X=Al or Zn atoms. Cubic crystal fields select a Γ 3 ground state doublet 17,18,20 , and there is considerable evidence for Kondo physics: at arXiv:1802.05752v3 [cond-mat.str-el]

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Quadrupole-driven non-Fermi-liquid and magnetic-field-induced heavy fermion states in a non-Kramers doublet system

Cited by 67 publications

References 49 publications

Cubic hastatic order in the two-channel Kondo-Heisenberg model

Cubic hastatic order in the two-channel Kondo-Heisenberg model

Effects of Magnetic Field on the Nonmagnetic Doublet Ground State in PrMgNi₄

Field-induced ferrohastatic phase in cubic non-Kramers doublet systems

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Quadrupole-driven non-Fermi-liquid and magnetic-field-induced heavy fermion states in a non-Kramers doublet system

Cited by 67 publications

References 49 publications

Cubic hastatic order in the two-channel Kondo-Heisenberg model

Cubic hastatic order in the two-channel Kondo-Heisenberg model

Effects of Magnetic Field on the Nonmagnetic Doublet Ground State in PrMgNi4

Field-induced ferrohastatic phase in cubic non-Kramers doublet systems

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Effects of Magnetic Field on the Nonmagnetic Doublet Ground State in PrMgNi₄