Collective magnetic Higgs excitation in a pyrochlore ruthenate

Dirk Wulferding; Junkyoung Kim; Mi Kyung Kim; Yang Yang; Jae Hyuck Lee; Dongjoon Song; Dongjin Oh; Heung Sik Kim; Li Ern Chern; Yong Baek Kim; Minji Noh; Hyunyong Choi; Sungkyun Choi; Natalia B. Perkins; Changyoung Kim; Seung Ryong Park

doi:10.1038/s41535-023-00572-9

Collective magnetic Higgs excitation in a pyrochlore ruthenate

Dirk Wulferding, Junkyoung Kim, Mi Kyung Kim, Yang Yang, Jae Hyuck Lee, Dongjoon Song, Dongjin Oh, Heung Sik Kim, Li Ern Chern, Yong Baek Kim, Minji Noh, Hyunyong Choi, Sungkyun Choi, Natalia B. Perkins, Changyoung Kim, Seung Ryong Park

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Abstract

The emergence of scalar Higgs-type amplitude modes in systems where symmetry is spontaneously broken has been a highly successful, paradigmatic description of phase transitions, with implications ranging from high-energy particle physics to low-energy condensed matter systems. Here, we uncover two successive high temperature phase transitions in the pyrochlore magnet Nd₂Ru₂O₇ at T _N = 147 K and T ^* = 97 K, that lead to giant phonon instabilities and culminate in the emergence of a highly coherent excitation. This coherent excitation, distinct from other phonons and from conventional magnetic modes, stabilizes at a low energy of 3 meV. We assign it to a collective Higgs-type amplitude mode, that involves bond energy modulations of the Ru₄ tetrahedra. Its striking two-fold symmetry, incompatible with the underlying crystal structure, highlights the possibility of multiple entangled broken symmetries.

Original language	English (US)
Article number	40
Journal	npj Quantum Materials
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41535-023-00572-9
State	Published - Dec 2023
Externally published	Yes

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© 2023, Springer Nature Limited.

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abstract = "The emergence of scalar Higgs-type amplitude modes in systems where symmetry is spontaneously broken has been a highly successful, paradigmatic description of phase transitions, with implications ranging from high-energy particle physics to low-energy condensed matter systems. Here, we uncover two successive high temperature phase transitions in the pyrochlore magnet Nd2Ru2O7 at T N = 147 K and T * = 97 K, that lead to giant phonon instabilities and culminate in the emergence of a highly coherent excitation. This coherent excitation, distinct from other phonons and from conventional magnetic modes, stabilizes at a low energy of 3 meV. We assign it to a collective Higgs-type amplitude mode, that involves bond energy modulations of the Ru4 tetrahedra. Its striking two-fold symmetry, incompatible with the underlying crystal structure, highlights the possibility of multiple entangled broken symmetries.",

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doi = "10.1038/s41535-023-00572-9",

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AU - Wulferding, Dirk

AU - Kim, Junkyoung

AU - Kim, Mi Kyung

AU - Yang, Yang

AU - Lee, Jae Hyuck

AU - Song, Dongjoon

AU - Oh, Dongjin

AU - Kim, Heung Sik

AU - Chern, Li Ern

AU - Kim, Yong Baek

AU - Noh, Minji

AU - Choi, Hyunyong

AU - Choi, Sungkyun

AU - Perkins, Natalia B.

AU - Kim, Changyoung

AU - Park, Seung Ryong

PY - 2023/12

Y1 - 2023/12

N2 - The emergence of scalar Higgs-type amplitude modes in systems where symmetry is spontaneously broken has been a highly successful, paradigmatic description of phase transitions, with implications ranging from high-energy particle physics to low-energy condensed matter systems. Here, we uncover two successive high temperature phase transitions in the pyrochlore magnet Nd2Ru2O7 at T N = 147 K and T * = 97 K, that lead to giant phonon instabilities and culminate in the emergence of a highly coherent excitation. This coherent excitation, distinct from other phonons and from conventional magnetic modes, stabilizes at a low energy of 3 meV. We assign it to a collective Higgs-type amplitude mode, that involves bond energy modulations of the Ru4 tetrahedra. Its striking two-fold symmetry, incompatible with the underlying crystal structure, highlights the possibility of multiple entangled broken symmetries.

AB - The emergence of scalar Higgs-type amplitude modes in systems where symmetry is spontaneously broken has been a highly successful, paradigmatic description of phase transitions, with implications ranging from high-energy particle physics to low-energy condensed matter systems. Here, we uncover two successive high temperature phase transitions in the pyrochlore magnet Nd2Ru2O7 at T N = 147 K and T * = 97 K, that lead to giant phonon instabilities and culminate in the emergence of a highly coherent excitation. This coherent excitation, distinct from other phonons and from conventional magnetic modes, stabilizes at a low energy of 3 meV. We assign it to a collective Higgs-type amplitude mode, that involves bond energy modulations of the Ru4 tetrahedra. Its striking two-fold symmetry, incompatible with the underlying crystal structure, highlights the possibility of multiple entangled broken symmetries.

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Collective magnetic Higgs excitation in a pyrochlore ruthenate

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