Realization of the kagome spin ice state in a frustrated intermetallic compound

Kan Zhao; Hao Deng; Hua Chen; Kate A. Ross; Vaclav Petříček; Gerrit Günther; Margarita Russina; Vladimir Hutanu; Philipp Gegenwart

doi:10.1126/science.aaz9356

Realization of the kagome spin ice state in a frustrated intermetallic compound

Kan Zhao
, Hao Deng
, Hua Chen
, Kate A. Ross
, Vaclav Petříček
, Gerrit Günther
, Margarita Russina
, Vladimir Hutanu
, Philipp Gegenwart^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

75 Scopus citations

Abstract

Spin ices are exotic phases of matter characterized by frustrated spins obeying local "ice rules," in analogy with the electric dipoles in water ice. In two dimensions, one can similarly define ice rules for in-plane Ising-like spins arranged on a kagome lattice. These ice rules require each triangle plaquette to have a single monopole and can lead to different types of orders and excitations. Using experimental and theoretical approaches including magnetometry, thermodynamic measurements, neutron scattering, and Monte Carlo simulations, we establish HoAgGe as a crystalline (i.e., nonartificial) system that realizes the kagome spin ice state. The system features a variety of partially and fully ordered states and a sequence of field-induced phases at low temperatures, all consistent with the kagome ice rule.

Original language	English
Pages (from-to)	1218-1223
Number of pages	6
Journal	Science
Volume	367
Issue number	6483
DOIs	https://doi.org/10.1126/science.aaz9356
State	Published - 13 Mar 2020
Externally published	Yes

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abstract = "Spin ices are exotic phases of matter characterized by frustrated spins obeying local {"}ice rules,{"} in analogy with the electric dipoles in water ice. In two dimensions, one can similarly define ice rules for in-plane Ising-like spins arranged on a kagome lattice. These ice rules require each triangle plaquette to have a single monopole and can lead to different types of orders and excitations. Using experimental and theoretical approaches including magnetometry, thermodynamic measurements, neutron scattering, and Monte Carlo simulations, we establish HoAgGe as a crystalline (i.e., nonartificial) system that realizes the kagome spin ice state. The system features a variety of partially and fully ordered states and a sequence of field-induced phases at low temperatures, all consistent with the kagome ice rule.",

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doi = "10.1126/science.aaz9356",

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TY - JOUR

T1 - Realization of the kagome spin ice state in a frustrated intermetallic compound

AU - Zhao, Kan

AU - Deng, Hao

AU - Chen, Hua

AU - Ross, Kate A.

AU - Petříček, Vaclav

AU - Günther, Gerrit

AU - Russina, Margarita

AU - Hutanu, Vladimir

AU - Gegenwart, Philipp

PY - 2020/3/13

Y1 - 2020/3/13

N2 - Spin ices are exotic phases of matter characterized by frustrated spins obeying local "ice rules," in analogy with the electric dipoles in water ice. In two dimensions, one can similarly define ice rules for in-plane Ising-like spins arranged on a kagome lattice. These ice rules require each triangle plaquette to have a single monopole and can lead to different types of orders and excitations. Using experimental and theoretical approaches including magnetometry, thermodynamic measurements, neutron scattering, and Monte Carlo simulations, we establish HoAgGe as a crystalline (i.e., nonartificial) system that realizes the kagome spin ice state. The system features a variety of partially and fully ordered states and a sequence of field-induced phases at low temperatures, all consistent with the kagome ice rule.

AB - Spin ices are exotic phases of matter characterized by frustrated spins obeying local "ice rules," in analogy with the electric dipoles in water ice. In two dimensions, one can similarly define ice rules for in-plane Ising-like spins arranged on a kagome lattice. These ice rules require each triangle plaquette to have a single monopole and can lead to different types of orders and excitations. Using experimental and theoretical approaches including magnetometry, thermodynamic measurements, neutron scattering, and Monte Carlo simulations, we establish HoAgGe as a crystalline (i.e., nonartificial) system that realizes the kagome spin ice state. The system features a variety of partially and fully ordered states and a sequence of field-induced phases at low temperatures, all consistent with the kagome ice rule.

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U2 - 10.1126/science.aaz9356

DO - 10.1126/science.aaz9356

M3 - 文章

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AN - SCOPUS:85081790076

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VL - 367

SP - 1218

EP - 1223

JO - Science

JF - Science

IS - 6483

ER -

Realization of the kagome spin ice state in a frustrated intermetallic compound

Abstract

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