Engineering & Materials Science
Etching
100%
Plasmas
65%
Antennas
46%
Millimeter waves
41%
Silicon
37%
Field effect transistors
36%
Bandwidth
28%
Electrons
26%
Plasma etching
25%
Networks (circuits)
25%
Metals
22%
Nanowires
22%
Decoding
21%
Fabrication
21%
Communication
21%
Radar
20%
Throughput
20%
Electron cyclotron resonance
20%
Ions
19%
Power amplifiers
18%
FinFET
18%
Wireless networks
18%
Electron energy levels
18%
Beamforming
18%
Acoustic impedance
17%
Nanosheets
17%
Substrates
16%
Photoluminescence
16%
Solar cells
16%
High electron mobility transistors
16%
MOSFET devices
15%
Doping (additives)
15%
Semiconductor quantum dots
15%
Energy gap
15%
Temperature
14%
Resonators
14%
Germanium
14%
Defects
14%
Nanopillars
14%
Waveguides
13%
Base stations
13%
Oxides
12%
Threshold voltage
12%
Photons
12%
Channel state information
12%
Heterojunction bipolar transistors
12%
Microwaves
11%
Modulation
11%
Semiconductor materials
11%
Scattering
11%
Plasma sources
11%
Resource allocation
11%
Chlorine
11%
Computer simulation
11%
Orthogonal frequency division multiplexing
11%
Boundary conditions
11%
Deep learning
10%
Electric potential
10%
Transmitters
10%
Semiconductor devices
10%
Magnetic fields
10%
Polysilicon
10%
Feedback
10%
Low noise amplifiers
10%
Bandpass filters
10%
Irradiation
10%
Surface waves
10%
Antenna arrays
10%
Ultra-wideband (UWB)
10%
Oxide semiconductors
10%
Noise figure
9%
Inductively coupled plasma
9%
MIMO systems
9%
Oxidation
9%
Radiation
9%
Iterative methods
9%
Transistors
9%
Communication systems
9%
Gases
9%
Medium access control
8%
Diodes
8%
Outages
8%
Energy efficiency
8%
Vector quantization
8%
Switches
8%
Nanostructures
8%
Masks
8%
Tuning
8%
Coplanar waveguides
8%
Fluorocarbons
8%
Negative ions
8%
Plasma density
8%
Sensors
8%
Quantum confinement
8%
Network protocols
8%
Aspect ratio
8%
Electric power utilization
8%
Convolutional codes
8%
Band structure
7%
Ferroelectric materials
7%
Physics & Astronomy
neutral beams
68%
etching
61%
field effect transistors
26%
damage
23%
CMOS
20%
plasma etching
20%
ultrahigh frequencies
16%
antennas
15%
electron cyclotron resonance
14%
silicon
14%
fins
13%
broadband
13%
performance
12%
millimeter waves
12%
power amplifiers
12%
electron energy
11%
quantum dots
11%
chlorine
11%
pulses
11%
templates
10%
radar
10%
simulation
10%
bandwidth
10%
fabrication
9%
output
8%
metal oxide semiconductors
8%
wafers
8%
rings
8%
bandpass filters
7%
amplifiers
7%
negative ions
7%
energy
7%
profiles
7%
fluorocarbons
7%
isolation
7%
impedance
7%
filters
7%
plasma density
6%
microwaves
6%
ions
6%
oxides
6%
photoluminescence
6%
defects
6%
photoresists
6%
irradiation
6%
waveguides
6%
aluminum gallium arsenides
6%
transistors
6%
oxidation
6%
nanowires
6%
high electron mobility transistors
6%
gases
6%
harmonics
5%
bees
5%
receivers
5%
apertures
5%
metals
5%
switches
5%
integrated circuits
5%
low noise
5%
radio frequencies
5%
magnetic fields
5%
chips
5%
masks
5%
Taiwan
5%
photons
5%
surface waves
5%
germanium
5%
Mathematics
Millimeter Wave
16%
Beamforming
13%
Decoding
11%
Channel State Information
11%
Throughput
10%
Simulation
10%
Wireless Networks
9%
Field-effect Transistor
9%
Etching
9%
Gallium Arsenide
9%
Radar
8%
Communication
8%
Design
8%
Orthogonal Frequency Division multiplexing (OFDM)
7%
Performance
7%
Receiver
7%
Semiconductors
7%
Energy Efficiency
7%
Multiple-input multiple-output (MIMO)
7%
Multiple Access
7%
Uplink
6%
Learning
6%
Precoding
6%
Successive Interference Cancellation
6%
Energy Efficient
6%
Interference
6%
Caching
6%
Nanowires
6%
Positioning
6%
Resource Allocation
6%
Power Allocation
5%
Antenna
5%
Low Complexity
5%
Angle of Arrival
5%
Metals
5%
Oxides
5%
Unequal Error Protection
5%
Sensor
5%
Electron
5%