Phonon Assisted Multimagnon Optical Absorption and Long Lived Two-Magnon
  States in Undoped Lamellar Copper Oxides

E. Manousakis; G. A. Sawatzky; H. Eskes; H. Rietschel; J. D. Perkins; J. G. Bednorz; J. Lorenzana; K. Yonemitsu; M. J. Rice; M. Roger; R. J. Elliot; R. Newman; R. R. P. Singh; T. Moriya; Y. Honda; Y. Mizuno; Y. Tanabe

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Phonon Assisted Multimagnon Optical Absorption and Long Lived Two-Magnon States in Undoped Lamellar Copper Oxides

Authors: E. Manousakis
G. A. Sawatzky
H. Eskes
H. Rietschel
J. D. Perkins
J. G. Bednorz
J. Lorenzana
K. Yonemitsu
M. J. Rice
M. Roger
R. J. Elliot
R. Newman
R. R. P. Singh
T. Moriya
Y. Honda
Y. Mizuno
Y. Tanabe
Publication date: 19 January 1995
Publisher: 'American Physical Society (APS)'
Doi

Abstract

We calculate the effective charge for multimagnon infrared (IR) absorption assisted by phonons in the parent insulating compounds of cuprate superconductors and the spectra for two-magnon absorption using interacting spin-wave theory. Recent measured bands in the mid IR [Perkins et al. Phys. Rev. Lett. {\bf 71} 1621 (1993)] are interpreted as involving one phonon plus a two-magnon virtual bound state, and one phonon plus higher multimagnon absorption processes. The virtual bound state consists of a narrow resonance occurring when the magnon pair has total momentum close to