Engineering & Materials Science
Networks (circuits)
100%
Carbonates
87%
MEMS
76%
Creep
75%
Parallel architectures
71%
Motion estimation
65%
Accelerometers
63%
Capacitance
54%
Image coding
53%
Oils
46%
Nanoparticles
45%
Constitutive equations
44%
Magnetic fields
42%
Energy gap
35%
Electric potential
34%
Enhanced recovery
33%
Image resolution
33%
Clocks
32%
Voltage control
32%
Rocks
32%
Recovery
32%
Image compression
31%
Electric power utilization
27%
Wetting
26%
Contact angle
26%
Bandwidth
26%
Deionized water
26%
Capacitive sensors
24%
Field programmable gate arrays (FPGA)
23%
Chromium alloys
22%
Signal sampling
21%
Water
20%
Reconfigurable hardware
20%
Magnesia
20%
Iron oxides
20%
Energy dissipation
19%
Sampling
19%
Coalescence
17%
Alumina
17%
Optical flows
17%
Newton-Raphson method
17%
Polychlorinated biphenyls
16%
Merging
16%
Electrostatics
16%
Nucleation
16%
Switches
16%
Jitter
15%
Seawater
15%
DC-DC converters
15%
Pulverized fuel
15%
Chemical Compounds
Carbonate
48%
Magnetic Field
32%
Imbibition
26%
Inductor
22%
Magnesium Oxide
18%
Bearing
17%
Application
17%
Inductance
16%
Nanoparticle
15%
Statistical Ensemble
15%
Velocity
12%
Fuel
12%
Flow Kinetics
11%
Decomposition Temperature
10%
Flow
9%
Decomposition
9%
Blast Furnace
9%
Gasification
8%
Voltage
8%
Coal
7%
Streaming Potential
6%
Zeta Potential
6%
Environment
5%
Time
5%
Calcite
5%