DESIGN AND INVESTIGATION OF INDUCED TRANSMISSION FILTER USING MULTI-LAYER DEPOSITION IN 532 NM AND 1064 NM

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DESIGN AND INVESTIGATION OF INDUCED TRANSMISSION FILTER USING MULTI-LAYER DEPOSITION IN 532 NM AND 1064 NM

Marzieh Nazarynia
Department of Physics, University of Vienna, Vienna, Austria

m.nazarynia@gmail.com

Article

In this paper, the design of induction transducer filters at 532 nm and 1064 nm is studied and this design is comprised of multilayer dielectric materials such as TiO2, SiO2, MgF2, ZrO2, and Ag. The highest throughput of filters is caused by non-absorbent dielectric interference films. On the other hand, the bandwidth is also increased by increasing the number of layers, which is technically difficult to do. One way to solve this problem is to use metal and create an induction filter.

Induction filters are filters that need to be introduced to many optical concepts such as reflection, crossing, anti-reflection, ejaculation destruction factor, and so on.

Transactional filters are a type of bandpass filters that pass through a band of wavelengths and reflect other wavelengths.

To build these filters we first determine the optical constants, layer thickness, layer admixture, and environment.

Keywords: Induced Transmission Filter, multi-layer, optic, deposition

2020-06-25T16:52:05+00:00
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