Title : ( Energy transfer in strained graphene assisted by discrete breathers excited by external ac driving )
Authors: Iman Evazzade , I. P. Lobzenko , E. A. Korznikov , Ilya A. Ovid’ko , Mahmood Rezaee Roknabadi , S. V. Dmitriev ,Access to full-text not allowed by authors
Abstract
In the present molecular-dynamics study, external ac driving is used at frequencies outside the phonon spectrum to excite gap DBs in uniformly strained graphene nanoribbon. Harmonic displacement or harmonic force is applied to a zigzag atomic chain of graphene. In the former case, nonpropagating DBs are excited on the atoms next to the driven atoms, while in the latter case the excited DBs propagate along the nanoribbon. The energy transfer along the nanoribbon assisted by the DBs is investigated in detail, and the differences between harmonic displacement driving and harmonic force driving are discussed. It is concluded that the amplitude of external driving at out-of-phonon spectrum frequencies should not necessarily be large to obtain a noticeable energy transfer to the system. Overall, our results suggest that external harmonic driving even at relatively small driving amplitudes can be used to control excitation of DBs and consequently the energy transfer to the system.
Keywords
, Nonlinear dynamics, graphene, discrete breathers@article{paperid:1064323,
author = {Evazzade, Iman and I. P. Lobzenko and E. A. Korznikov and Ilya A. Ovid’ko and Rezaee Roknabadi, Mahmood and S. V. Dmitriev},
title = {Energy transfer in strained graphene assisted by discrete breathers excited by external ac driving},
journal = {Physical Review B},
year = {2017},
volume = {95},
number = {3},
month = {January},
issn = {2469-9950},
pages = {354231--354238},
numpages = {7},
keywords = {Nonlinear dynamics; graphene; discrete breathers},
}
%0 Journal Article
%T Energy transfer in strained graphene assisted by discrete breathers excited by external ac driving
%A Evazzade, Iman
%A I. P. Lobzenko
%A E. A. Korznikov
%A Ilya A. Ovid’ko
%A Rezaee Roknabadi, Mahmood
%A S. V. Dmitriev
%J Physical Review B
%@ 2469-9950
%D 2017