OPTOS (optical properties of textured optical sheets) is a simulation formalism for determining optical properties of sheets with plane-parallel structured interfaces. The method is versatile as interface structures of different optical regimes, e.g. geometrical and wave optics, can be included. It is very efficient due to the re-usability of the calculated light redistribution properties of the individual interfaces.[1] It has so far been mainly used to model optical properties of solar cells and solar modules but it is also applicable for example to LEDs or OLEDs with light extraction structures.
^Tucher, N.; Eisenlohr, J.; Goldschmidt, J. C.; Bläsi, B. "A versatile formalism for optical simulation of textured sheets", SPIE Newsroom, doi:10.1117/2.1201509.006104
OPTOS (optical properties of textured optical sheets) is a simulation formalism for determining optical properties of sheets with plane-parallel structured...
been used for modeling light trapping in solar cells (e.g. using the OPTOSformalism) or low concentration solar photovoltaic systems. In the context of...
particularly efficient method for modeling and optimization is the OPTOSformalism. In 2012, researchers at MIT reported that c-Si films textured with...
presence of a phase transition near the ambient temperature of the axon ("Formalism", above). Then, rapid change of temperature away from the phase transition...
Henry Primakoff, and then by Freeman Dyson. Using the second quantization formalism they showed that magnons behave as weakly interacting quasiparticles obeying...
in the classical approximation, whereas Levy et al. used the quantum formalism. The theory of the GMR for the current perpendicular to the layers (current...
derive the corresponding equation for n as a function of E. The same formalism was applied to crystalline materials by Forouhi and Bloomer in 1988. The...
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