Keyphrases
Anisotropic Conduction
33%
Carbon Nanotubes
33%
Diamond
33%
Dielectric Film
33%
Diffraction Limit
33%
Diffusion Experiment
33%
Dissimilar Materials
33%
Electrical Resistance
33%
Energy Dissipation
33%
Epitaxial
33%
Femtosecond Time Resolution
33%
Gallium Arsenide
33%
Heat Flow
33%
Heat Transfer
33%
Heater
33%
High Spatial Resolution
33%
High Time Resolution
33%
Interlayer Dielectric
33%
Joule Heating
33%
K(I)
33%
Lateral Resolution
100%
Layer Thickness
33%
Low-dimensional Structures
33%
Measurement Bandwidth
33%
Metal Bridge
33%
Micro-fabricated
33%
Micro-nano
100%
Microelectronic Systems
33%
Micromachining
66%
Micromechanical Systems
33%
Multi-walled Carbon Nanotubes (MWCNTs)
33%
Multilayer Thin Films
33%
Near-room Temperature
66%
Optoelectronic System
33%
Picosecond
33%
Polycrystalline Films
33%
Polyimide
33%
Precise Data
33%
Radiation Imaging
33%
Recent Advances
33%
Resistance Thermometry
33%
Resolution Time
33%
Room Temperature
33%
Scanning Thermal Microscopy (SThM)
66%
SiGe
33%
Single-crystalline Films
66%
Single-walled
33%
Solid Immersion Lens
33%
Solid-state Device
100%
Solid-state Structures
100%
Submicron
33%
Superlattices
100%
Thermal Conductance
33%
Thermal Conductivity
100%
Thermal Diffusion
33%
Thermal Radiation
33%
Thermal Transport
100%
Thermometer
33%
Thermometry
100%
Thermoreflectance
33%
Thermoreflectance Microscopy
33%
Through-thickness
33%
Ultra-high
33%
Engineering
Anisotropic
33%
Carbon Nanotube
66%
Diamond
33%
Dielectrics
33%
Diffraction Limit
33%
Dimensional Structure
33%
Energy Dissipation
33%
Gallium Arsenide
33%
Interlayer
33%
Lateral Resolution
100%
Layer Thickness
33%
Measurement Bandwidth
33%
Microelectronics
33%
Multilayer Film
33%
Nanoscale
100%
Nanosecond Time
33%
Optoelectronics
33%
Picosecond
33%
Polycrystalline
33%
Resistance Heating
33%
Room Temperature
100%
Spatial Resolution
33%
State Device
100%
Superlattice
100%
Thermal Conductivity
100%
Thermal Diffusion
33%
Thermal Radiation
33%
Thin Films
33%
Material Science
Carbon Nanotube
66%
Diamond
33%
Dielectric Material
33%
Electrical Resistance
33%
Film
66%
Gallium Arsenide
33%
Multilayer Film
33%
Polyimide
33%
Single Crystal
66%
Solid State Device
100%
Superlattice
100%
Thermal Conductivity
100%
Thermal Diffusion
33%
Thin Films
33%