Engineering
Power Amplifier
100%
Output Power
79%
Amplifier
71%
Monolithic Microwave Integrated Circuits
66%
Gallium Arsenide
63%
Ku-Band
36%
Microstructure
36%
Number Density
33%
Millimeter Wave
33%
Harmonics
30%
Power Added Efficiency
29%
Test Result
28%
Resistive
27%
C-Band
25%
Matching Network
23%
Scattering Parameters
22%
Maraging Steel
22%
Signal Model
22%
Adiabatic Shear Band
22%
Dynamic Recrystallization
22%
Single Channel
22%
Transceiver
22%
S-Band
22%
Internals
22%
Heterojunctions
22%
Optical Receiver
22%
Bipolar Transistor
22%
Dispersoid
22%
Front End
22%
Grain Boundary
21%
Noise Figure
20%
Measured Result
20%
Simulated Result
20%
Power Device
16%
Disordered Structure
16%
Input Signal
14%
Power Gain
14%
Energy Dissipation
14%
Return Loss
14%
Transmissions
14%
Plastic Deformation
13%
Model Parameter
13%
Drain Voltage
13%
Precipitation Hardening
13%
Ultimate Tensile Strength
12%
Al Alloy
11%
Model Topology
11%
Elastic Energy
11%
Passive Tag
11%
Output Voltage
11%
Material Science
Density
85%
Nucleation
49%
Age Hardening
44%
Maraging Steel
33%
Electronic Circuit
33%
Yield Stress
32%
Aluminum Alloys
30%
Coarsening
27%
Heat Treatment
25%
Grain Boundary
24%
Ultimate Tensile Strength
22%
Dealloying
22%
Adiabatic Shear Band
22%
Cast Alloy
22%
Austenite
22%
Amorphous Metal
22%
Copper Alloys
22%
Scanning Transmission Electron Microscopy
20%
Atom Probe
19%
Tomography
18%
Thermal Stability
16%
Zirconium Alloys
16%
Nanoparticle
16%
Solid Solution
14%
Nickel Alloys
14%
Transmission Electron Microscopy
13%
Plastic Deformation
13%
Mechanical Strength
13%
Titanium Alloys
12%
Microstructural Evolution
12%
Silicon Alloys
11%
Device Efficiency
11%
Annealing
11%
Plasma Spraying
11%
Atomic Structure
11%
Single Crystal
11%
Drawing Process
11%
Film
11%
Capacitance
11%
Grain Refinement
11%
Low Temperature Co-Fired Ceramics
11%
Iron Ion
11%
Pore Size
11%
Superalloys
11%
Carbide
11%
Permittivity
11%
Matrix Composite
11%
Surface-Enhanced Raman Spectroscopy
11%
High Entropy Alloys
11%
Gallium Nitride
11%