Kapitza thermal resistance in linear and nonlinear chain models: Isotopic defect

O. V. Gendelman and Jithu Paul
Phys. Rev. E 103, 052113 – Published 7 May 2021

Abstract

Kapitza resistance in the chain models with internal defects is considered. For the case of the linear chain, the exact analytic solution for the boundary resistance is derived for arbitrary linear time-independent conservative inclusion or defect. A simple case of isolated isotopic defects is explored in more detail. Contrary to the bulk conductivity in the linear chain, the Kapitza resistance is finite. However, the universal thermodynamic limit does not exist in this case. In other terms, the exact value of the resistance is not uniquely defined, and depends on the way of approaching the infinite lengths of the chain fragments. By this reason, and also due to the explicit dependence on the parameters of the thermostats, the resistance cannot be considered as a local property of the defect. Asymptotic scaling behavior of the heat flux in the case of very heavy defect is explored and compared to the nonlinear counterparts; similarities in the scaling behavior are revealed. For the lightweight isotopic defect in the linear chain, one encounters a typical dip of the temperature profile, related to weak excitation of the localized mode in the attenuation zone. If the nonlinear interactions are included, this dip can still appear at a relatively short timescale, with subsequent elimination due to the nonlinear interactions. This observation implies that even in the nonlinear chains, the linear dynamics can predict the main features of the short-time evolution of the thermal profile if the temperature is low enough.

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  • Received 7 February 2021
  • Revised 8 April 2021
  • Accepted 12 April 2021

DOI:https://doi.org/10.1103/PhysRevE.103.052113

©2021 American Physical Society

Physics Subject Headings (PhySH)

Condensed Matter, Materials & Applied PhysicsStatistical Physics & Thermodynamics

Authors & Affiliations

O. V. Gendelman* and Jithu Paul

  • Faculty of Mechanical Engineering, Technion – Israel Institute of Technology, Haifa 3200003, Israel

  • *ovgend@technion.ac.il

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Issue

Vol. 103, Iss. 5 — May 2021

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