Engineering
Energy Engineering
100%
Ignition
95%
Methane
54%
Low-Temperature
50%
Thruster
49%
Premixed Flame
45%
Reynolds' Number
44%
Hall Thruster
43%
Two Dimensional
43%
Diffusion Flame
42%
Computer Simulation
41%
Boundary Layer
41%
Electric Field
40%
Turbulent Boundary Layer
39%
Elevated Pressure
36%
Air Mixture
35%
Good Agreement
35%
Experimental Result
35%
Nanosecond
33%
Flame Propagation
33%
Magnetic Field
31%
Equivalence Ratio
31%
Hydrodynamics
30%
One Dimensional
27%
Direct Numerical Simulation
27%
Dielectrics
26%
Lewis Number
26%
Pipeline Fluid Flow
26%
Nonequilibrium
25%
Kinetic Model
24%
Atmospheric Pressure
22%
Supersonic Flow
22%
Streamwise
21%
High Reynolds Number
21%
Length Scale
20%
Ignition Delay
20%
Vortex
20%
Similarities
20%
Numerical Study
19%
Autoignition
19%
Diffusive
19%
Experimental Investigation
19%
Heptane
18%
Femtosecond Laser
18%
Control System
17%
Flow Field
17%
Fluid Viscosity
17%
Magnetohydrodynamic Generator
17%
Large Eddy Simulation
17%
Turbulent Flow
16%
Strain Rate
16%
Control Law
16%
Dilution
16%
Axisymmetric
15%
Delay Time
15%
Burning Rate
15%
Mach Number
15%
Limitations
15%
Heat Losses
15%
Nanoscale
14%
Magnetohydrodynamics
14%
Transients
14%
Engineering
14%
Experimental Measurement
14%
Electron Temperature
14%
Illustrates
14%
Flame Temperature
14%
Current Drive
13%
Laser Beam
13%
Flow Velocity
13%
Alkane
13%
Liquid Films
12%
Microstructure
12%
Imaging Contrast
12%
Flow Rate
12%
Electrostatics
12%
Hypersonic Flows
12%
Internals
12%
Ignition Temperature
12%
Flame Front
11%
Feedback Control System
11%
Velocity Profile
11%
Aspect Ratio
11%
Experimental Observation
11%
Metrics
11%
Thin Films
11%
Tension Surface
11%
Multiphoton Ionization
11%
Number Density
11%
Boundary Condition
10%
Laser Induced Forward Transfer
10%
Battery (Electrochemical Energy Engineering)
10%
Nanopatterning
10%
Mole Fraction
10%
Temperature Coefficient
10%
Microchannel
9%
Pressure Gradient
9%
Gas-Phase
9%
Elementary Reaction
9%
Electronic Excitation
9%
Keyphrases
Ignition
21%
Elevated Pressure
18%
Cool Flame
16%
High Pressure
16%
Hall Thruster
15%
Turbulence
15%
Lasing
15%
Turbulent Boundary Layers
13%
Laser Pulse
13%
Magnetic Field
13%
Laminar Flame Speed
13%
Non-premixed
12%
Flame Speed
12%
Low Temperature
12%
Premixed Flame
12%
Microwave Scattering
12%
Combustion
10%
Dimethyl Ether
10%
Supersonic Turbulent Boundary Layer
10%
Reynolds number
10%
Electron Beam
9%
Optical Lattice
9%
Reactor
9%
Ethylene
9%
Equivalence Ratio
9%
Argon
9%
Atmospheric Air
9%
Laser Beams
9%
Deformable Mirror
9%
Electric Field (E-field)
8%
Thruster
8%
Numerical Simulation
8%
Physical Review
8%
Diffusion Flame
8%
Supersonic Flow
8%
Heptane
8%
Ignition Temperature
8%
Reduced Mechanism
8%
Chalcogenide Glasses
8%
Multiphoton Ionization
8%
Nanopatterning
8%
Bessel Beam
8%
High Contrast Imaging
7%
Atmospheric Pressure
7%
Atomic Oxygen
7%
Jet-stirred Reactor
7%
Non-equilibrium
7%
Hyperuniform
7%
Tokamak
7%
Extinction Limit
7%
Faraday Rotation Spectroscopy
7%
Laser-induced Forward Transfer
7%
Lewis number
7%
Flame Structure
7%
Acetylene
7%
Two Dimensional
7%
Standoff Detection
7%
Coronagraph
7%
High Reynolds number
7%
Flammability Limits
7%
Cylindrical Hall Thruster
7%
Hypersonic Flow
7%
Optical Trapping
7%
Flame Propagation
6%
Premixed Cool Flame
6%
Rayleigh-Brillouin Scattering
6%
Avalanche Ionization
6%
Laser-induced
6%
Air Mixture
6%
Femtosecond
6%
REMPI
6%
Mach number
6%
Self-sustaining
6%
Femtosecond Laser
6%
Kinetic Model
6%
Radar REMPI
6%
Tunable Acoustics
6%
CO2 Reduction Reaction (CO2RR)
6%
Coherent anti-Stokes Raman Scattering (CARS) Microscopy
6%
Princeton
6%
Turbulent pipe Flow
6%
Boundary Layer
6%
Counterflow
6%
Direct numerical Simulation
6%
Coherent anti-Stokes Raman Scattering
6%
Stimulated Emission
6%
Low-temperature Chemistry
6%
Orbital-free Density Functional Theory
6%
High Contrast
6%
Blunt Body
6%
Explosion Limits
5%
Spherical Flame
5%
Current Drive
5%
Alpha Channel
5%
Cellular Instability
5%
Numerical Modeling
5%
Steady State
5%
Strain Rate
5%
Pre-ionization
5%
Disordered Photonics
5%