Title of article
Energy exchange between vibration modes of a graphene nanoflake oscillator: Molecular dynamics study
Author/Authors
Kwon، نويسنده , , Oh Kuen and Kim، نويسنده , , Hag-Wone and Kang، نويسنده , , Jeong Won، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2014
Pages
8
From page
237
To page
244
Abstract
We investigated the oscillatory behaviors of a square graphene-nanoflake (GNF) on a rectangular GNF via classical molecular dynamics simulations, and analyzed the energy exchange and the oscillation frequencies for three different modes. The simulation results using a model structure show that the GNF oscillator can be considered as a high frequency oscillator. As its initial velocity increases, its telescoping region increases, then its structural asymmetry along the axis due to own small rotation exerted asymmetric van der Waals (vdW) force on it, and finally, this asymmetric vdW force enhances its rotational motions during its axial translational motions. So the initial kinetic energy of the axial translational motion is changed into the energy of the orthogonal vibrational and the rotational motions. Its resonance frequencies are dependent on the aspect ratio of the bottom rectangular GNF, the difference between the lengths of the GNF oscillator and the bottom rectangular GNF, and the initial velocity.
Keywords
Graphene nanoflake , Graphene nanoribbon , Molecular dynamics , Oscillator
Journal title
Current Applied Physics
Serial Year
2014
Journal title
Current Applied Physics
Record number
1791698
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