INIS
absorption
100%
accuracy
20%
applications
80%
beams
20%
calibration
40%
chemistry
20%
computer codes
20%
corrections
40%
correlations
20%
data
20%
density
20%
design
80%
developers
20%
distribution
20%
experimental data
20%
feasibility studies
20%
fluorescence
20%
guidelines
20%
industry
20%
infrared spectrometers
20%
interference
60%
length
20%
optical properties
60%
optics
100%
packing
20%
particle size
20%
performance
80%
range
40%
sampling
100%
scattering
100%
sensitivity
20%
signal-to-noise ratio
20%
signals
40%
specifications
20%
spectroscopy
20%
surfaces
20%
tools
100%
topography
20%
ultraviolet radiation
40%
variations
60%
Keyphrases
Absorption Properties
14%
Application Development
14%
Approximate Estimation
14%
Center Prior
14%
Chemometric Tools
28%
Density Variation
14%
Design Phase
14%
Design Process
14%
Difference Surface
14%
Distribution Difference
14%
Double Beam
14%
Down-weighting
14%
EMSCs
14%
General Guidelines
14%
High Performance
42%
Industrial Application
14%
Infrared Measurements
14%
Lab Methods
14%
Late Points
14%
Length Variation
14%
Mid-infrared
14%
Mid-infrared Spectroscopy
14%
Multiplicative Signal Correction
14%
Near-infrared
28%
Near-infrared Spectrometer
14%
Near-infrared Spectroscopy
14%
Optical Absorption Property
100%
Optical Instrumentation
14%
Optical Instruments
100%
Optical Path Length
14%
Optical Properties
42%
Optical Scattering Properties
100%
Optics
100%
Packing Density
14%
Particle Size Distribution
14%
Physical Interference
28%
Real Process
100%
Repeatability
14%
Sample Properties
14%
Scattering Properties
14%
Signal Correction
14%
Signal-to-noise Ratio
14%
Significant Benefit
14%
Specific Absorption Rate
14%
Spectral Instruments
14%
Spectral Interference
14%
Spectral Method
14%
Spectral Range
14%
Standard Normal Variate
14%
Surface Topography
14%
Tailor-made
14%
Topographic Variation
14%
UV-VIS Spectroscopy
14%
Visible Fluorescence
14%
Working Range
14%
Engineering
Absorption Property
100%
Application Development
50%
Design Phase
50%
Design Process
50%
Feasibility Study
50%
Illustrates
100%
Industrial Applications
50%
Material Sample
100%
Mid-Infrared Spectroscopy
50%
Optical Path Length
50%
Optical Performance
100%
Packing Density
50%
Particle Size Analysis
50%
Real Process
100%
Related Application
50%
Repeatability
50%
Signal-to-Noise Ratio
50%
Simplifies
50%
Spectral Range
50%
Surface Topography
50%
Material Science
Density
33%
Optical Property
100%
Particle Size Analysis
33%
Signal-to-Noise Ratio
33%
Surface Topography
33%
Physics
Particle Size Distribution
33%