Your search keyword '"Maciej Filipiak"' showing total 2 results

1. A Review: Inductively Coupled Plasma Reactive Ion Etching of Silicon Carbide

Author

Katarzyna Racka-Szmidt, Bartłomiej Stonio, Jarosław Żelazko, Maciej Filipiak, and Mariusz Sochacki

Subjects

Technology, Microscopy, QC120-168.85, ICP-RIE, Cr mask, QH201-278.5, selectivity, plasma etching, Review, reactive ion etching, Engineering (General). Civil engineering (General), TK1-9971, SF6, Descriptive and experimental mechanics, silicon carbide, General Materials Science, Electrical engineering. Electronics. Nuclear engineering, TA1-2040

Abstract

The inductively coupled plasma reactive ion etching (ICP-RIE) is a selective dry etching method used in fabrication technology of various semiconductor devices. The etching is used to form non-planar microstructures—trenches or mesa structures, and tilted sidewalls with a controlled angle. The ICP-RIE method combining a high finishing accuracy and reproducibility is excellent for etching hard materials, such as SiC, GaN or diamond. The paper presents a review of silicon carbide etching—principles of the ICP-RIE method, the results of SiC etching and undesired phenomena of the ICP-RIE process are presented. The article includes SEM photos and experimental results obtained from different ICP-RIE processes. The influence of O2 addition to the SF6 plasma as well as the change of both RIE and ICP power on the etching rate of the Cr mask used in processes and on the selectivity of SiC/Cr etching are reported for the first time. SiC is an attractive semiconductor with many excellent properties, that can bring huge potential benefits thorough advances in submicron semiconductor processing technology. Recently, there has been an interest in SiC due to its potential wide application in power electronics, in particular in automotive, renewable energy and rail transport.

Published

2022

2. Passive Photonic Integrated Circuits Elements Fabricated on a Silicon Nitride Platform

Author

Marcin Lelit, Mateusz Słowikowski, Maciej Filipiak, Marcin Juchniewicz, Bartłomiej Stonio, Bartosz Michalak, Krystian Pavłov, Marcin Myśliwiec, Piotr Wiśniewski, Andrzej Kaźmierczak, Krzysztof Anders, Stanisław Stopiński, Romuald B. Beck, and Ryszard Piramidowicz

Subjects

General Materials Science, silicon nitride, photonic integrated circuits, silicon photonics, arrayed waveguide grating, generic technology, photonic sensors

Abstract

The fabrication processes for silicon nitride photonic integrated circuits evolved from microelectronics components technology—basic processes have common roots and can be executed using the same type of equipment. In comparison to that of electronics components, passive photonic structures require fewer manufacturing steps and fabricated elements have larger critical dimensions. In this work, we present and discuss our first results on design and development of fundamental building blocks for silicon nitride integrated photonic platform. The scope of the work covers the full design and manufacturing chain, from numerical simulations of optical elements, design, and fabrication of the test structures to optical characterization and analysis the results. In particular, technological processes were developed and evaluated for fabrication of the waveguides (WGs), multimode interferometers (MMIs), and arrayed waveguide gratings (AWGs), which confirmed the potential of the technology and correctness of the proposed approach.

Published

2021