Two-dimensional analytical modeling of a linear variable filter for spectral order sorting

Cheng-Hao Ko; Yueh-Hsun Wu; Jih-Run Tsai; Bang-Ji Wang; Symphony Chakraborty

doi:10.1364/AO.55.004531

Applied Optics
Vol. 55,
Issue 17,
pp. 4531-4537
(2016)
•https://doi.org/10.1364/AO.55.004531

Two-dimensional analytical modeling of a linear variable filter for spectral order sorting

Cheng-Hao Ko, Yueh-Hsun Wu, Jih-Run Tsai, Bang-Ji Wang, and Symphony Chakraborty

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Cheng-Hao Ko, Yueh-Hsun Wu, Jih-Run Tsai, Bang-Ji Wang, and Symphony Chakraborty, "Two-dimensional analytical modeling of a linear variable filter for spectral order sorting," Appl. Opt. 55, 4531-4537 (2016)

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Related Topics
Table of Contents Category
- Thin Films
Optics & Photonics Topics
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The topics in this list come from the Optics and Photonics Topics applied to this article.
Previously assigned OCIS codes
- Filters (120.2440)
- Wavelength filtering devices (130.7408)
- Thin films (310.0310)
- Deposition and fabrication (310.1860)
- Theory and design (310.6805)

About this Article
History
- Original Manuscript: March 17, 2016
- Revised Manuscript: May 12, 2016
- Manuscript Accepted: May 12, 2016
- Published: June 3, 2016

Abstract

A two-dimensional thin film thickness model based on the geometry of a commercial coater which can calculate more effectively the profiles of linear variable filters (LVFs) has been developed. This is done by isolating the substrate plane as an independent coordinate (local coordinate), while the rotation and translation matrices are used to establish the coordinate transformation and combine the characteristic vector with the step function to build a borderline which can conclude whether the local mask will block the deposition or not. The height of the local mask has been increased up to 40 mm in the proposed model, and two-dimensional simulations are developed to obtain a thin film profile deposition on the substrate inside the evaporation chamber to achieve the specific request of producing a LVF zone width in a more economical way than previously reported [Opt. Express 23, 5102 (2015) [CrossRef] ].

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Symbols	Definitions
$O (0,0, 0)$	center of dome-shaped substrate holder by global coordinates
$P (L \cos φ, L \sin φ, 0)$	position of evaporation source
$L$	horizontal distance between source and center
$K$	target point on substrate
$\hat{n}$	normal vector of substrate
$R$	radius of dome-shaped substrate holder
$r$	distance between $P$ and $K$
$α$	polar angle of line $\bar{O K}$
$α_{B}$	polar angle of line $\bar{O B}$
$θ$	angle between $\bar{P K}$ and $z$ -axis
$θ^{'}$	angle between $\bar{P K}$ and $\hat{n}$
$φ$	azimuth of rotation source relative to $x$ -axis
$φ^{'}$	substrate’s azimuth relative to $x$ -axis
$h$	distance between a substrate and a local mask

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