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Anharmonicity and Universal Response of Linear Carbon Chain Mechanical Properties under Hydrostatic Pressure

Keshav Sharma, Nathália Leal Marinho Costa, Yoong Ahm Kim, Hiroyuki Muramatsu, N. Neto, Luiz G. P. Martins, Jing Kong, Alexandre Rocha Paschoal, Paulo T. Araújo

2020Physical Review Letters30 citationsDOI

Abstract

Isolated linear carbon chains (LCCs) encapsulated by multiwalled carbon nanotubes are studied under hydrostatic pressure (P) via resonance Raman scattering. The LCCs' spectroscopic signature C band around 1850 cm^{-1} softens linearly with increasing P. A simple anharmonic force-constant model not only describes such softening but also shows that the LCCs' Young's modulus (E), Grüneisen parameter (γ), and strain (ϵ) follow universal P^{-1} and P^{2} laws, respectively. In particular, γ also presents a unified behavior for all LCCs. To the best of our knowledge, these are the first results reported on such isolated systems and the first work to explore universal P-dependent responses for LCCs' E, ϵ, and γ.

Topics & Concepts

AnharmonicityHydrostatic pressureSofteningHydrostatic equilibriumRaman spectroscopyMaterials scienceCondensed matter physicsRaman scatteringWork (physics)Resonance (particle physics)Constant (computer programming)PhysicsThermodynamicsQuantum mechanicsComposite materialComputer scienceProgramming languageCarbon Nanotubes in CompositesGraphene research and applicationsBoron and Carbon Nanomaterials Research