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Optical filters dimensions and thermal operation conditions impact on its transmission considerations in near infrared (NIR) optical spectrum transmission region

AHMED NABIH ZAKI RASHED1,* , MOHAMED A. METWAE'E2

Affiliation

  1. Electronics and Electrical Communications Engineering Department, Faculty of Electronic Engineering, Menouf 32951, Menoufia University, Egypt
  2. Faculty of Engineering, Delta University for Engineering and Technology, Egypt

Abstract

We study the different optical filters design considerations over wide range of the operation conditions in near infrared optical spectrum transmission region. There are many operating conditions parameters describing optical filter properties such as the amount absorbed electromagnetic radiation which depends on the operating signal wavelength; the amount of the absorbing material in the filter thickness; and the absorption coefficient of the material at that wavelength. Filter modulation depth, filtration signal quality, filter delay time, filter bit error rate, and filter correction are the major interesting performance parameters in the current study. Best candidate materials based optical filters are used which namely barium fluoride (BaF2), and zinc selenide (ZnSe) and compared with their measured results by using silicon optical filter. Our results are validated against published experimental studies and show a good agreement and matching..

Keywords

Spectral filtering, Infrared transmission, Fabrication materials, Filter thickness, Thermal operation conditions, Modulation depth.

Citation

AHMED NABIH ZAKI RASHED, MOHAMED A. METWAE'E, Optical filters dimensions and thermal operation conditions impact on its transmission considerations in near infrared (NIR) optical spectrum transmission region, Optoelectronics and Advanced Materials - Rapid Communications, 8, 3-4, March-April 2014, pp.175-184 (2014).

Submitted at: Sept. 20, 2013

Accepted at: March 13, 2014