Polarized Raman Response of Two-Dimensional Quasiperiodic Antiferromagnets: Configuration-Interaction versus Green’s Function Approaches

We study Raman response of Heisenberg antiferromagnets on the C5v Penrose and C8v Ammann–Beenker lattices within and beyond the Loudon–Fleury second-order perturbation scheme intending to explore optical features peculiar to quasiperiodic magnets. Within the Loudon–Fleury mechanism, we find one and...

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Veröffentlicht in:	Journal of the Physical Society of Japan 2022-05, Vol.91 (5)
Hauptverfasser:	Inoue, Takashi, Yamamoto, Shoji
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Sprache:	eng
Schlagworte:	Antiferromagnetism Configurations Green's functions Heisenberg antiferromagnets Lattices Magnets Perturbation Spin dynamics Symmetry Wave functions
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creator	Inoue, Takashi Yamamoto, Shoji
description	We study Raman response of Heisenberg antiferromagnets on the C5v Penrose and C8v Ammann–Beenker lattices within and beyond the Loudon–Fleury second-order perturbation scheme intending to explore optical features peculiar to quasiperiodic magnets. Within the Loudon–Fleury mechanism, we find one and only Raman-active mode of E2 symmetry without any dependence on linear incident and scattered polarizations. Beyond the Loudon–Fleury mechanism, two more symmetry species A1 and A2 are activated via dynamic ring exchange and chiral spin fluctuations, respectively, which can be extracted by the use of circular as well as linear polarizations. We employ Green's functions on one hand and configuration-interaction wavefunctions on the other hand to calculate the multimagnon contributions to inelastic light scatterings. Demonstrating the great advantage of the configuration-interaction scheme, we reveal that a major portion of the Shastry–Shraiman fourth-order Raman intensity is mediated by multimagnon fluctuations.
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Within the Loudon–Fleury mechanism, we find one and only Raman-active mode of E2 symmetry without any dependence on linear incident and scattered polarizations. Beyond the Loudon–Fleury mechanism, two more symmetry species A1 and A2 are activated via dynamic ring exchange and chiral spin fluctuations, respectively, which can be extracted by the use of circular as well as linear polarizations. We employ Green's functions on one hand and configuration-interaction wavefunctions on the other hand to calculate the multimagnon contributions to inelastic light scatterings. 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Within the Loudon–Fleury mechanism, we find one and only Raman-active mode of E2 symmetry without any dependence on linear incident and scattered polarizations. Beyond the Loudon–Fleury mechanism, two more symmetry species A1 and A2 are activated via dynamic ring exchange and chiral spin fluctuations, respectively, which can be extracted by the use of circular as well as linear polarizations. We employ Green's functions on one hand and configuration-interaction wavefunctions on the other hand to calculate the multimagnon contributions to inelastic light scatterings. 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Within the Loudon–Fleury mechanism, we find one and only Raman-active mode of E2 symmetry without any dependence on linear incident and scattered polarizations. Beyond the Loudon–Fleury mechanism, two more symmetry species A1 and A2 are activated via dynamic ring exchange and chiral spin fluctuations, respectively, which can be extracted by the use of circular as well as linear polarizations. We employ Green's functions on one hand and configuration-interaction wavefunctions on the other hand to calculate the multimagnon contributions to inelastic light scatterings. 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subjects	Antiferromagnetism Configurations Green's functions Heisenberg antiferromagnets Lattices Magnets Perturbation Spin dynamics Symmetry Wave functions
title	Polarized Raman Response of Two-Dimensional Quasiperiodic Antiferromagnets: Configuration-Interaction versus Green’s Function Approaches
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