Keyphrases
Acoustic Reflection
33%
Appropriate Technology
33%
Beam Attenuation
33%
Beam Path
66%
Bone Inclusion
66%
Bone Surface
33%
Bovine Bone
33%
Chest Wall
33%
Clinical Experience
33%
Clinical Significance
33%
Clinical Situation
33%
Compact Bone
100%
Computational Study
33%
Conduction Effect
33%
Diagnostic Applications
33%
Direct Power
33%
Exposure Experiment
66%
Extended Exposure
33%
Head-and-neck
33%
High Heating Rate
33%
High Power
33%
High Temperature
33%
Incidence Angle
33%
Infrared Camera
33%
Laboratory Results
33%
Long-term Exposure
33%
Low Power
66%
Magnetic Resonance Imaging
33%
MHz Frequency
33%
Optical Fiber
33%
Phantom
33%
Phantom Material
33%
Planar Transducer
33%
Power Deposition
33%
Proton Resonance Frequency
33%
Short-term Exposure
33%
Similarity Experiment
33%
Soft Tissue-bone Interface
66%
Superficial Treatment
33%
Temperature Distribution
33%
Temperature Elevation
66%
Temperature Measurement Method
33%
Temperature Probe
33%
Therapeutic Use
33%
Thermal Boundary
33%
Thermal Conduction
33%
Thermal Contribution
100%
Thermal Diffusion
33%
Thermal Dose
33%
Thermal Impact
33%
Thermal Treatment
33%
Thermograph
33%
Thermometric
33%
Tissue Layer
33%
Tissue-like
100%
Treatment Site
33%
Ultrasonic
33%
Ultrasound
100%
Ultrasound Beam
66%
Ultrasound Hyperthermia
100%
Unfocused Ultrasound
33%
Uniform Temperature Distribution
33%
Engineering
Angle of Incidence
50%
Bone Interface
100%
Fiber Optics
50%
Frequency Shift
50%
Heating Rate
50%
Infrared Camera
50%
Mm Diameter
50%
Resonance Frequency
50%
Site Treatment
50%
Target Volume
100%
Temperature Distribution
100%
Temperature Probe
50%
Theoretical Study
50%
Thermal Diffusion
50%
Thermal Impact
50%
Transducer
50%
Ultrasonics
50%
Physics
Acoustic Reflection
33%
Fiber Optics
33%
Frequency Shift
33%
Heat Conduction
33%
Hyperthermia
100%
Magnetic Resonance
33%
Proton Resonance
33%
Temperature Distribution
66%
Therapy
33%
Thermal Diffusion
33%
Transducer
33%
Ultrasonics
33%
Medicine and Dentistry
Cortical Bone
100%
Diagnosis
33%
Fiber Optics
33%
Hyperthermia
100%
Magnetic Resonance Imaging
33%
Measurement Technique
33%
N [bis(1 Aziridinyl)phosphinyl] 4 Iodobenzamide
33%
Neck
33%
Thoracic Wall
33%
Material Science
Fiber Optics
100%
Magnetic Resonance Imaging
100%
Surface (Surface Science)
100%
Thermal Diffusion
100%
Chemical Engineering
Heating Rate
50%
Temperature Distribution
100%
Thermal Diffusion
50%