Thermometry and thermal transport in micro/nanoscale solid-state devices and structures

Keyphrases

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

Engineering

• Nanoscale 100%
• Thermal Conductivity 100%
• Room Temperature 100%
• Lateral Resolution 100%
• State Device 100%
• Superlattice 100%
• Carbon Nanotube 66%
• Thin Films 33%
• Polycrystalline 33%
• Diamond 33%
• Optoelectronics 33%
• Dimensional Structure 33%
• Anisotropic 33%
• Gallium Arsenide 33%
• Picosecond 33%
• Spatial Resolution 33%
• Layer Thickness 33%
• Dielectrics 33%
• Microelectronics 33%
• Energy Dissipation 33%
• Thermal Diffusion 33%
• Nanosecond Time 33%
• Interlayer 33%
• Thermal Radiation 33%
• Diffraction Limit 33%
• Multilayer Film 33%
• Measurement Bandwidth 33%
• Resistance Heating 33%

Material Science

• Thermal Conductivity 100%
• Superlattice 100%
• Solid State Device 100%
• Film 66%
• Carbon Nanotube 66%
• Single Crystal 66%
• Thin Films 33%
• Diamond 33%
• Gallium Arsenide 33%
• Electrical Resistance 33%
• Polyimide 33%
• Thermal Diffusion 33%
• Multilayer Film 33%
• Dielectric Material 33%