Keyphrases
Bath Temperature
50%
Clamping Loss
25%
Coefficient of Thermal Expansion
25%
Conductive Loss
100%
Doubly Clamped
25%
Finite Element Simulation
25%
Frequency Change
25%
Frequency Shift
25%
Interfacial Losses
100%
Linear Expansion Coefficient
25%
Local Heating
50%
Local Joule Heating
25%
Loss Mechanism
25%
Mechanical Properties
25%
Nanoscale Electromechanics
100%
Nanowires
100%
Resonant Frequency
25%
Resonant Response
25%
Semiconductor Nanostructures
25%
Systematic Variation
25%
Temperature Range
25%
Temperature-dependent Thermal Conductivity
25%
Tensile Stress
25%
Thermal Conductivity
100%
Thermal Stress
25%
INIS
electromechanics
100%
expansion
100%
finite element method
25%
heating
50%
indium arsenides
25%
joule heating
25%
losses
100%
mechanical properties
25%
metals
25%
nanostructures
100%
nanowires
100%
semiconductor materials
25%
simulation
25%
temperature dependence
25%
temperature range
25%
thermal conductivity
100%
thermal expansion
25%
thermal stresses
25%
values
50%
variations
25%
Engineering
Electromechanics
100%
Expansion Coefficient
25%
Finite Element Simulation
25%
Frequency Shift
25%
Local Heating
50%
Nanoscale
100%
Nanowires
100%
Resonant Frequency
25%
Temperature Range
25%
Tensile Stress σ
25%
Thermal Conductivity
100%
Thermal Conductivity Coefficient
25%
Thermal Stress
25%
Material Science
Finite Element Methods
25%
Nanocrystalline Material
25%
Nanowires
100%
Thermal Conductivity
100%
Thermal Stress
25%
Ultimate Tensile Strength
25%