Symmetry-adapted phonon analysis of nanotubes

Keyphrases

• Armchair Nanotube 25%
• Axial Elongation 25%
• Axial Torsion 25%
• Block Diagonal Matrix 25%
• Block-circulant 50%
• Carbon Nanotubes 25%
• Chirality 25%
• Computational Efficiency 25%
• Deformation Mode 25%
• Density of States 25%
• Diagonalizable 25%
• Discrete Fourier Transform 25%
• Energy Transport 50%
• Hessian 50%
• Hessian Matrix 25%
• Highly Symmetric 25%
• Intermediate Space 50%
• Linear Transformation 25%
• Long Wavelength 50%
• Nanostructures 25%
• Nanotubes 100%
• Non-crystalline Materials 25%
• Nonlocal Model 25%
• Normal Modes of Vibration 50%
• Objective Structures 100%
• Optics 25%
• Oscillation 25%
• Phonon Curves 75%
• Phonon Spectrum 25%
• Phonon Stability 50%
• Phonons 100%
• Rank-one 25%
• Real Space 25%
• Second Derivative 25%
• Soft Mode 25%
• Structural Mode 25%
• Structure Framework 25%
• Symmetry Adapted 100%
• Thermodynamics 25%
• Torsional Buckling 25%
• Torsional Deformation 25%
• Zero Energy 25%
• Zero-energy Mode 25%
• Zigzag Nanotube 25%

Engineering

• Carbon Nanotubes 33%
• Circulant 66%
• Computational Efficiency 33%
• Deformation Mode 33%
• Diagonal Matrix 33%
• Discrete Fourier Transform 33%
• Energy Transport 66%
• Hessian Matrix 33%
• Linear Transformation 33%
• Mode Energy 33%
• Nanomaterial 33%
• Nanotubes 100%
• Nonlocal Model 33%
• Normal Modes 66%
• One Dimensional 33%
• Oscillation Characteristic 33%
• Real Space 33%
• Vibration Mode 66%

Material Science

• Carbon Nanotubes 33%
• Chirality 33%
• Density 33%
• Nanostructure 33%
• Nanotubes 100%