SPRAY for color prediction

- A -

absorption

	Optical constants of typical materials
	P1
	Host material of paper model
	Overview

advanced coatings

Ag

angle dependence

angle distribution

	About this document
	Overview

angle of observation

angle-dependence

- B -

backward scattering

bandgap

beam

binder

black pigment

blue

	A paint model
	P1
	P1

boundary conditions

- C -

carbon

	Investigating pigment properties
	Carbon particles
	Carbon particles

carbon particles

CCD camera

CdS

coating

coatings

	About this document
	Overview

color

	A paint model
	A model of digital prints

color coordinates

color impression

colors

coordinates

curved surfaces

- D -

database

	About this document
	Overview
	Carbon particles

detector

dielectric function

dielectric function model

Dielectrics

diffuse illumination

diffuse reflectance

	A simple model of paper
	A paint model
	A model of digital prints

digital prints

dispersion

	Optical constants of typical materials
	Host material of paper model

distances

dots

- E -

electromagnetic waves

electronic bandgap

ellipsoids

energy bands

Excel

- F -

fluorescent materials

forward peak

- G -

geometry

glass

gold

gray scale

green

- H -

host

	About this document
	Light scattering in paper

- I -

inclusions

	About this document
	Light scattering in paper

index of refraction

infrared

ink dots

Insulators

intensity distribution

interband transitions

interference effects

isotropic scattering

- K -

Kubelka-Munk

- L -

Lambertian

layer stack

lens

light propagation

light source

light waves

- M -

Maxwell's equations

microstructure

Mie program

	A paint model
	P1

Mie theory

	About this document
	Overview

mirror

	About this document
	A model of digital prints

Mixing

mixture

model

	A simple model of paper
	A paint model
	A model of digital prints

multi-flux theory

multiple coatings

	Investigating pigment properties
	Overview

- N -

near infrared

noble metal

normal dispersion

- O -

observation point

OLE automation

optical constants

	About this document
	Overview
	Optical constants of typical materials

optical performance

oscillator

	A simple model of paper
	P1

oxides

- P -

paint

Paints

paper

	About this document
	A simple model of paper
	A model of digital prints

paper model

Parallel computing

particles

	Investigating pigment properties
	Carbon particles

peak

penetration depth

physical model

	A simple model of paper
	Overview

physical modeling

pigment

	About this document
	A model of digital prints
	P2
	P3
	P1
	P2
	P3

pigment research

pigment size

pigments

	A paint model
	Overview
	P1
	Overview

plate

powders

prints

	About this document
	A model of digital prints

probability

- R -

radiation

radius

radius distribution

ray-tracing

red

	A paint model
	P3
	P1

reflectance

	A simple model of paper
	A paint model
	A model of digital prints
	Investigating pigment properties

reflectance spectra

refractive index

- S -

scattering

scattering probability

screens

Semiconductors

shapes

	About this document
	Overview

single scattering

SiO2

size classes

size distribution

	About this document
	Overview
	Light scattering in paper

size variation

sizes

spatial resolution

spectra

spectrometer

spheres

spherical particles

surface oxides

- T -

technical manual

thickness

	A model of digital prints
	Investigating pigment properties

TiO2

transmittance

two-flux concept

two-phase composite

typical materials

- U -

UV

	A simple model of paper
	A model of digital prints
	Optical constants of typical materials
	P1

- V -

V

vibrational modes

video sequences

viewing angle

VisualBasic macro

voids

	A simple model of paper
	Light scattering in paper

volume fraction

	About this document
	A simple model of paper
	A model of digital prints
	P1
	Light scattering in paper

- W -

wavelengths

wavenumbers

waves

white