uniaxialOptics: Modelling multilayer anisotropic stacks

Computes transmission and/or reflection through a 1D optical uniaxial stack, such as a liquid crystal cell. Available methods: Ko variant of Berremans 4x4 Matrix Method, Lien variant of Extended Jones Method

Author
Steph Cornford <eltadcirad@gmail.com>
Date of publication
2013-04-13 10:03:07
Maintainer
Steph Cornford <eltadcirad@gmail.com>
License
GPL (>=2)
Version
0.1
URLs

View on R-Forge

Man pages

conopix.lc
Conoscopy of liquid crystal cell: pixel calculation
conopix.stack
Conoscopy of uniaxial multilayer stacks: pixel calculation
conorect.lc
Conoscopy of liquid crystal cell: image calculation
conorect.stack
Conoscopy of uniaxial multilayer stacks: image calculation
optics.lc
Optics of liquid crystal cells
optics.stack
Optics of multilayer, anisotropic systems

Files in this package

uniaxialOptics/DESCRIPTION
uniaxialOptics/LICENSE
uniaxialOptics/NAMESPACE
uniaxialOptics/R
uniaxialOptics/R/conof.R
uniaxialOptics/R/uo.R
uniaxialOptics/R/zzz.R
uniaxialOptics/demo
uniaxialOptics/demo/00Index
uniaxialOptics/demo/SPP.R
uniaxialOptics/demo/conoscopy.R
uniaxialOptics/demo/lc_conoscopy.R
uniaxialOptics/man
uniaxialOptics/man/conopix.lc.Rd
uniaxialOptics/man/conopix.stack.Rd
uniaxialOptics/man/conorect.lc.Rd
uniaxialOptics/man/conorect.stack.Rd
uniaxialOptics/man/optics.lc.Rd
uniaxialOptics/man/optics.stack.Rd
uniaxialOptics/src
uniaxialOptics/src/Makevars
uniaxialOptics/src/ko.f
uniaxialOptics/src/lien.c