Emergence of highly degenerate excited states in the frustrated magnet MgCr2O4

K. Tomiyasu; T. Yokobori; Y. Kousaka; R. I. Bewley; T. Guidi; T. Watanabe; J. Akimitsu; K. Yamada

doi:10.1103/PhysRevLett.110.077205

Emergence of highly degenerate excited states in the frustrated magnet MgCr₂O₄

K. Tomiyasu, T. Yokobori, Y. Kousaka, R. I. Bewley, T. Guidi, T. Watanabe, J. Akimitsu, K. Yamada

SCI - Physics

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

29 Citations (Scopus)

Abstract

High degeneracy in ground states leads to the generation of exotic zero-energy modes, a representative example of which is the formation of molecular spin-liquid-like fluctuations in a frustrated magnet. Here we present single-crystal inelastic neutron scattering results for the frustrated magnet MgCr₂O₄, which show that a common set of finite-energy molecular spin excitation modes is sustained in both the liquid-like phase above magnetic ordering temperature T_N and an ordered phase with an extremely complex magnetic structure below T_N. Based on this finding, we propose the concept of high degeneracy in excited states, which promotes local resonant elementary excitations. This concept is expected to have ramifications on our understanding of excitations in many complex systems, including not only spin but also atomic liquids, complex order systems, and amorphous systems.

Original language	English
Article number	077205
Journal	Physical review letters
Volume	110
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.110.077205
Publication status	Published - 2013 Feb 15

ASJC Scopus subject areas

Physics and Astronomy(all)

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abstract = "High degeneracy in ground states leads to the generation of exotic zero-energy modes, a representative example of which is the formation of molecular spin-liquid-like fluctuations in a frustrated magnet. Here we present single-crystal inelastic neutron scattering results for the frustrated magnet MgCr2O4, which show that a common set of finite-energy molecular spin excitation modes is sustained in both the liquid-like phase above magnetic ordering temperature TN and an ordered phase with an extremely complex magnetic structure below TN. Based on this finding, we propose the concept of high degeneracy in excited states, which promotes local resonant elementary excitations. This concept is expected to have ramifications on our understanding of excitations in many complex systems, including not only spin but also atomic liquids, complex order systems, and amorphous systems.",

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AU - Tomiyasu, K.

AU - Yokobori, T.

AU - Kousaka, Y.

AU - Bewley, R. I.

AU - Guidi, T.

AU - Watanabe, T.

AU - Akimitsu, J.

AU - Yamada, K.

PY - 2013/2/15

Y1 - 2013/2/15

N2 - High degeneracy in ground states leads to the generation of exotic zero-energy modes, a representative example of which is the formation of molecular spin-liquid-like fluctuations in a frustrated magnet. Here we present single-crystal inelastic neutron scattering results for the frustrated magnet MgCr2O4, which show that a common set of finite-energy molecular spin excitation modes is sustained in both the liquid-like phase above magnetic ordering temperature TN and an ordered phase with an extremely complex magnetic structure below TN. Based on this finding, we propose the concept of high degeneracy in excited states, which promotes local resonant elementary excitations. This concept is expected to have ramifications on our understanding of excitations in many complex systems, including not only spin but also atomic liquids, complex order systems, and amorphous systems.

AB - High degeneracy in ground states leads to the generation of exotic zero-energy modes, a representative example of which is the formation of molecular spin-liquid-like fluctuations in a frustrated magnet. Here we present single-crystal inelastic neutron scattering results for the frustrated magnet MgCr2O4, which show that a common set of finite-energy molecular spin excitation modes is sustained in both the liquid-like phase above magnetic ordering temperature TN and an ordered phase with an extremely complex magnetic structure below TN. Based on this finding, we propose the concept of high degeneracy in excited states, which promotes local resonant elementary excitations. This concept is expected to have ramifications on our understanding of excitations in many complex systems, including not only spin but also atomic liquids, complex order systems, and amorphous systems.

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Emergence of highly degenerate excited states in the frustrated magnet MgCr₂O₄

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