Intrinsic localized modes in the charge-transfer solid PtCl

Konstantin Kladko; Jiri Malek; Alan R. Bishop

arXiv:cond-mat/9907436·cond-mat·October 31, 2009

Intrinsic localized modes in the charge-transfer solid PtCl

Konstantin Kladko, Jiri Malek, Alan R. Bishop

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TL;DR

This paper provides a theoretical analysis of intrinsic localized modes in a specific charge-transfer solid, highlighting their nonlinear features and non-thermalization effects observed in Raman scattering experiments.

Contribution

It introduces a detailed theoretical framework for understanding quantum intrinsic localized modes in a quasi-one-dimensional charge-transfer solid, linking them to experimental Raman data.

Findings

01

Raman scattering shows signs of non-thermalized lattice modes.

02

Intrinsic localized modes are present and exhibit nonlinear behavior.

03

Evidence of nonequilibrium lattice dynamics in PtCl.

Abstract

We report a theoretical analysis of intrinsic localized modes in a quasi-one-dimensional charge-transfer-solid $[P t (e n)_{2}] [P t (e n)_{2} C l_{2}] (C l O_{4})_{4}$ (PtCl). We discuss strongly nonlinear features of resonant Raman overtone scattering measurements on PtCl, arising from quantum intrinsic localized (multiphonon) modes (ILMs) and ILM-plus-phonon states. We show, that Raman scattering data displays clear signs of a non-thermalization of lattice degrees-of-freedom, manifested in a nonequilibrium density of intrinsic localized modes.

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