Asymmetric thermal line shape broadening in a gapped 3D antiferromagnet: Evidence for strong correlations at finite temperature

D. L. Quintero-Castro; B. Lake; A. T.M.N. Islam; E. M. Wheeler; C. Balz; M. Månsson; K. C. Rule; S. Gvasaliya; A. Zheludev

doi:10.1103/PhysRevLett.109.127206

Asymmetric thermal line shape broadening in a gapped 3D antiferromagnet: Evidence for strong correlations at finite temperature

D. L. Quintero-Castro
, B. Lake
, A. T.M.N. Islam
, E. M. Wheeler
, C. Balz
, M. Månsson
, K. C. Rule
, S. Gvasaliya
, A. Zheludev

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

19 Scopus citations

Abstract

It is widely believed that magnetic excitations become increasingly incoherent as the temperature is raised due to random collisions which limit their lifetime. This picture is based on spin-wave calculations for gapless magnets in 2 and 3 dimensions and is observed experimentally as a symmetric Lorentzian broadening in energy. Here, we investigate a three-dimensional dimer antiferromagnet and find unexpectedly that the broadening is asymmetric-indicating that far from thermal decoherence, the excitations behave collectively like a strongly correlated gas. This result suggests that a temperature activated coherent state of quasiparticles is not confined to special cases like the highly dimerized spin-1/2 chain but is found generally in dimerized antiferromagnets of all dimensionalities and perhaps gapped magnets in general.

Original language	English
Article number	127206
Journal	Physical Review Letters
Volume	109
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.109.127206
State	Published - Sep 19 2012
Externally published	Yes

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Quintero-Castro, D. L., Lake, B., Islam, A. T. M. N., Wheeler, E. M., Balz, C., Månsson, M., Rule, K. C., Gvasaliya, S., & Zheludev, A. (2012). Asymmetric thermal line shape broadening in a gapped 3D antiferromagnet: Evidence for strong correlations at finite temperature. Physical Review Letters, 109(12), Article 127206. https://doi.org/10.1103/PhysRevLett.109.127206

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title = "Asymmetric thermal line shape broadening in a gapped 3D antiferromagnet: Evidence for strong correlations at finite temperature",

abstract = "It is widely believed that magnetic excitations become increasingly incoherent as the temperature is raised due to random collisions which limit their lifetime. This picture is based on spin-wave calculations for gapless magnets in 2 and 3 dimensions and is observed experimentally as a symmetric Lorentzian broadening in energy. Here, we investigate a three-dimensional dimer antiferromagnet and find unexpectedly that the broadening is asymmetric-indicating that far from thermal decoherence, the excitations behave collectively like a strongly correlated gas. This result suggests that a temperature activated coherent state of quasiparticles is not confined to special cases like the highly dimerized spin-1/2 chain but is found generally in dimerized antiferromagnets of all dimensionalities and perhaps gapped magnets in general.",

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doi = "10.1103/PhysRevLett.109.127206",

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AU - Quintero-Castro, D. L.

AU - Lake, B.

AU - Islam, A. T.M.N.

AU - Wheeler, E. M.

AU - Balz, C.

AU - Månsson, M.

AU - Rule, K. C.

AU - Gvasaliya, S.

AU - Zheludev, A.

PY - 2012/9/19

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N2 - It is widely believed that magnetic excitations become increasingly incoherent as the temperature is raised due to random collisions which limit their lifetime. This picture is based on spin-wave calculations for gapless magnets in 2 and 3 dimensions and is observed experimentally as a symmetric Lorentzian broadening in energy. Here, we investigate a three-dimensional dimer antiferromagnet and find unexpectedly that the broadening is asymmetric-indicating that far from thermal decoherence, the excitations behave collectively like a strongly correlated gas. This result suggests that a temperature activated coherent state of quasiparticles is not confined to special cases like the highly dimerized spin-1/2 chain but is found generally in dimerized antiferromagnets of all dimensionalities and perhaps gapped magnets in general.

AB - It is widely believed that magnetic excitations become increasingly incoherent as the temperature is raised due to random collisions which limit their lifetime. This picture is based on spin-wave calculations for gapless magnets in 2 and 3 dimensions and is observed experimentally as a symmetric Lorentzian broadening in energy. Here, we investigate a three-dimensional dimer antiferromagnet and find unexpectedly that the broadening is asymmetric-indicating that far from thermal decoherence, the excitations behave collectively like a strongly correlated gas. This result suggests that a temperature activated coherent state of quasiparticles is not confined to special cases like the highly dimerized spin-1/2 chain but is found generally in dimerized antiferromagnets of all dimensionalities and perhaps gapped magnets in general.

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DO - 10.1103/PhysRevLett.109.127206

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JO - Physical Review Letters

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Asymmetric thermal line shape broadening in a gapped 3D antiferromagnet: Evidence for strong correlations at finite temperature

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