Keyphrases
Laser-induced Breakdown Spectroscopy
100%
Nanosecond Laser
100%
Picosecond Laser
100%
Deuterium
50%
Argon
50%
Low Pressure
50%
Laser Plasma
50%
Background Gas
50%
Ps-laser
50%
Signal-to-noise Ratio
25%
First Wall
25%
Partially Overlapped
25%
H-line
25%
Spectral Lines
25%
Depth Profile
25%
Fuel Retention
25%
Electron Temperature
25%
Spectroscopy Studies
25%
Electron Density
25%
Al Coating
25%
Stark Broadening
25%
Hydrogen Isotopes
25%
Laser Pulse
25%
Coating Thickness
25%
Acceptable Accuracy
25%
Nd-YAG Laser
25%
Curve Fitting
25%
Relative Standard Error
25%
Laser Type
25%
Pulse Duration
25%
Short Pulse Duration
25%
Overlapping Lines
25%
Laser Pulse Duration
25%
Long Pulsed Laser
25%
Ns Laser
25%
INIS
comparative evaluations
100%
iter tokamak
100%
breakdown
100%
spectroscopy
100%
lasers
100%
pulses
38%
values
15%
thickness
15%
coatings
15%
gases
15%
spectra
15%
deuterium
15%
argon
15%
low pressure
15%
laser-produced plasma
15%
tools
7%
assessments
7%
applications
7%
doped materials
7%
plasma
7%
fuels
7%
detection
7%
retention
7%
errors
7%
signal-to-noise ratio
7%
accuracy
7%
depth
7%
first wall
7%
curves
7%
electron temperature
7%
electron density
7%
hydrogen isotopes
7%
neodymium lasers
7%
Engineering
Broadening
100%
Nanosecond
100%
Picosecond Laser
100%
Pulse Duration
100%
Depth Profile
50%
Signal-to-Noise Ratio
50%
Fitting Curve
50%
Electron Energy
50%
Carrier Concentration
50%
Line Spectra
50%
Hydrogen Isotopes
50%
Physics
Laser-Induced Breakdown Spectroscopy
100%
Laser Pulse
75%
Fluence
50%
Deuterium
50%
Laser Produced Plasma
50%
Signal-to-Noise Ratio
25%
YAG Laser
25%
Hydrogen Isotope
25%
Electron Energy
25%
Electron Density
25%
Line Spectra
25%
Curve Fitting
25%
Blood Plasma
25%