Visualization of Optical Phenomena Caused by Multilayer Films
with Complex Refractive Indices
Hideki Hirayama, Kazufumi Kaneda, Hideo Yamashita, Yoshiki Yamaji,
Yoshimi Monden
Proc. Pacific Graphics '99 (ISBN: 0-7695-0293-8), pp. 128-137 (1999)
ABSTRACT
This paper proposes a method for rendering objects coated with
multilayer thin films.
Multilayer thin films are widely utilized in industry, for example, optical
lenses, optical filters, and windowpanes, among others.
Demand for visualization of the optical effects of multilayer films has
therefore become great.
To visualize optical properties of such films,
we have developed a method for calculating composite reflectance and
transmittance of the system of multilayer thin films,
taking into consideration such factors as multiple reflection,
interference and absorption of light inside the films.
The proposed method is based on wave optics, and is able to accurately
visualize the optical effects of multilayer films consisting of not only
dielectric materials, but also metallic and semiconductive materials.
Metallic and semiconductive materials are able to absorb light,
and their refractive indices are expressed as complex values.
Dielectric materials, on the other hand, do not absorb light,
and the refractive indices are expressed as real values.
Taking into consideration complex refractive indices,
the proposed method can visualize optical phenomena caused by various
kinds of multilayer thin films.
The proposed method is implemented using a raytracer and optical
properties of a SiO_2 film coating on a silicon base, and
several kinds of multilayer films coating windowpanes or teapot are
visualized to demonstrate the usefulness of the proposed method.
Keywords: Multilayer thin film, Wave optics, Complex refractive index,
Multiple reflection, Interference, Composite reflectance and transmittance
Figure 8 (a): Silicon teapot coated with a SiO_2 film.
Figure 8 (b): Glass teapot coated with a gold film.
Figure 8 (c): Glass teapot coated with aluminum, gold and dielectric films.
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