Modeling of optical constants of diamond-like carbon

• Authors: FRANTA Daniel; BURŠÍKOVÁ Vilma; NEČAS David; ZAJÍČKOVÁ Lenka
• Year of publication: 2008
• Type: Article in Periodical
• Magazine / Source: Diamond and Related Materials
• MU Faculty or unit: Faculty of Science
• Field: Solid matter physics and magnetism
• Keywords: Diamon-like carbon; Amorphou hydrogenated carbon; Optical properties; Band structure
• Description: A new model of optical constants of diamond-like carbon parameterizing joint density of states (PJDOS) is introduced and compared with a previously published model based on the parameterization of density of states (PDOS). Both the models employ only six parameters: three parameters for pi-to-pi and three parameters for sigma-to-sigma transitions. These parameters have clear physical meaning. One describes the minimum energy needed for the band transition, i.e. band gap, the second is the maximum energy of transitions and the third is proportional to total density of corresponding electronic states. A certain disadvantage of PDOS model consists in the necessity of a numerical calculation. On the other hand the PJDOS model is analytical and, therefore, it can be implemented in a simple manner. The efficiency of both the models for study of DLC structure is demonstrated in several examples.

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