HYPHa project: a low-cost alternative for integrated photonics

Butt, Muhammad Ali; Kaźmierczak, Andrzej; Tyszkiewicz, Cuma; Karasiński, Paweł; Środa, Edyta; Olszewski, J.; Pala, Piotr; Martynkien, Tadeusz; Hlushchenko, Daria; Baraniecki, Tomasz; Bachmatiuk, Alicja; Jusza, Anna; Guzik, M.; Piramidowicz, Ryszard

doi:10.4302/plp.v14i2.1145

Cited by 4 publications

(4 citation statements)

References 13 publications

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“…Its purpose is to facilitate the design of integrated photonic circuits, particularly within a novel and cost-effective SiO 2 :TiO 2 technological platform. This platform relies on sol-gel films and the direct nanoimprint technique, offering a unique and low-cost approach to integrated photonic circuitry design [26]. Thus, for our analysis, we have assumed material parameters corresponding to refractive indices of fused silica glass (n s = 1.4440 @ λ 0 = 1.55 µm) [27], SiO x :TiO y composite (n f = 1.75645 @ λ 0 = 1.55 µm) [28] and air (n c ≈ 1) [29].…”

Section: Resultsmentioning

confidence: 99%

Semi-Analytical Approach versus Finite Element Method for Analysis of Propagation Properties in Rectangular Waveguides: Silica-Titania Technological Platform

Janaszek,

Butt,

Piramidowicz

2023

Electronics

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This work explicitly demonstrates a semi-analytical effective index approximation (EIA) approach for the description of the propagation properties of rib and ridge waveguides. By using the example of waveguides realized on a low-cost silica-titania (SiO2:TiO2) technological platform, we present that EIA may be successfully applied for the approximate determination of modal effective indices and single mode propagation conditions. All obtained results have been confirmed to be convergent with the finite element method (FEM) simulations at low relative error. Due to the tremendously fast execution time of EIA simulations in comparison with the FEM solver, we believe that the presented approach may be applied in a preliminary step of designing functional blocks in new and existing photonic integrated circuit technologies, which often require complex and multi-parameter calculations.

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Section: Resultsmentioning

confidence: 99%

Semi-Analytical Approach versus Finite Element Method for Analysis of Propagation Properties in Rectangular Waveguides: Silica-Titania Technological Platform

Janaszek,

Butt,

Piramidowicz

2023

Electronics

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“…Nevertheless, we believe that the SiO2:TiO2 platform has a huge potential, and further research is essential in the expansion of a flawless and cost-effective SiO2:TiO2 platform to be employed in a wide application range [20] ensuing in its commercialization soon [21].…”

Section: Technological Challenges In the Development Of Silica-titani...mentioning

confidence: 99%

Technological challenges in the development of silica-titania platform for integrated optics

Kilicaslan,

Butt,

Kazmierczak

et al. 2023

Photonics Lett. Pol.

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This short report discusses the technological challenges of silica-titania (SiO2:TiO2) thin film deposited via a simple, cost-effective sol-gel process and dip-coating method. Sol-gel is a versatile method for producing materials by using a solution (sol) that undergoes a gelation process to form a solid network (gel). This process involves hydrolysis and condensation reactions of precursor molecules. Although the sol-gel application is simple and economical, it has some limitations. The aging of sol-gel materials causes a change in the properties and structure of a sol-gel system over time, causing a deterioration in the final properties of the waveguide thin films. Nanoimprint lithography is a cost-effective patterning technique that is only effective when fresh sol is used; otherwise, it leads to the formation of defective waveguide structures. Full Text: PDF References M. Ebelmen, Annl. Chim. Phys. 1846(16), 129 (1846). CrossRef H.C. Vasconcelos, Waveguide technologies in Photonics and Microwave Engineering (IntechOpen, 2020). CrossRef X. Orignac, H.C. Vasconcelos, R.M. Almeida, "Structural study of SiO2 TiO2 sol—gel films by X-ray absorption and photoemission spectroscopies", J. Non-Crystalline Solids 217, 155 (1997). CrossRef X. Orignac, H.C. Vasconcelos, X.M. Du, R.M. Almeida, "Influence of Solvent Concentration on the Microstructure of SiO2-TiO2 Sol-Gel Films", J. sol-gel Scien. Technol. 8, 243 (1997). CrossRef P. Karasiński, J. Jaglarz, J. Mazur, "Low loss silica-titania waveguide films", Photonics Lett. Pol. 2, 37 (2010). CrossRef A.I.G. Varela et al., Recent Applications in Sol-Gel Synthesis (InTech 2017) DirectLink M.A. Butt, "Thin-Film Coating Methods: A Successful Marriage of High-Quality and Cost-Effectiveness—A Brief Exploration", Coatings 12, 1115 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, P. Karasiński, M. Zięba, A. Kaźmierczak, M. Zdończyk, L. Duda, M. Guzik, J. Olszewski, T. Martynkien, A. Bachmatiuk, R. Piramidowicz, "Optical Thin Films Fabrication Techniques—Towards a Low-Cost Solution for the Integrated Photonic Platform: A Review of the Current Status", Materials 29, 4591 (2022). CrossRef M.A. Butt, C. Tyszkiewicz, K. Wojtasik, P. Karasinski, A. Kazmierczak, R. Piramidowicz, "Subwavelength Grating Waveguide Structures Proposed on the Low-Cost Silica–Titania Platform for Optical Filtering and Refractive Index Sensing Applications", Int. J. Mol. Sci. 23, 6614 (2022). CrossRef L. Guo, "Nanoimprint Lithography: Methods and Material Requirements", Adv. Mater. 19, 495 (2007). CrossRef V. Prajzler, V. Chlupaty, P. Kulha, M. Neruda, S. Kopp, M. Muhlberger, "Optical Polymer Waveguides Fabricated by Roll-to-Plate Nanoimprinting Technique", Nanomaterials 11, 724 (2021). CrossRef A. Cherala, P.N. Pandya, K.M. Liechti, S.V. Sreenivasan, "Extending the resolution limits of nanoshape imprint lithography using molecular dynamics of polymer crosslinking", Microsyst. Nanoeng. 7, 13 (2021). CrossRef K. Wojtasik, M. Zieba, C. Tyszkiewicz, W. Pakiela, G. Zak, O. Jeremiasz, E. Gondek, K. Drabczyk, P. Karasinski, "Zinc Oxide Films Fabricated via Sol-Gel Method and Dip-Coating Technique–Effect of Sol Aging on Optical Properties, Morphology and Photocatalytic Activity", Materials 16, 1898 (2023). CrossRef A. Kaźmierczak, M.A. Butt, M. Zięba, C. Tyszkiewicz, P. Karasiński, R. Piramidowicz, "Towards the most convenient configuration of integrated photonic sensor for implementation in SiO2:TiO2 sol-gel derived waveguide film technology", Proc. SPIE 12139, Optical Sensing and Detection VII; 1213908 (2022). CrossRef K. Racka-Szmidt, B. Stonio, J. Żelazko, M. Filipiak, M. Sochacki, "A Review: Inductively Coupled Plasma Reactive Ion Etching of Silicon Carbide", Materials 24, 123 (2021). CrossRef M.A. Butt et al."Development of a low-cost silica-titania optical platform for integrated photonics applications", Opt. Expr. 30, 23678 (2022). CrossRef S. Barcelo, Z. Li, "Nanoimprint lithography for nanodevice fabrication", Nano Converg. 3, 21 (2016). CrossRef J-H. Shin, S-H. Lee, K-J. Byeon, K-S. Han, H. Lee, K. Tsunozaki, "Fabrication of flexible UV nanoimprint mold with fluorinated polymer-coated PET film", Nanoscale Res. Lett. 6, 458 (2011). CrossRef U. Tahir, Y.B. Shim, M.A. Kamran, D-I. Kim, M. Y. Jeong, "Nanofabrication Techniques: Challenges and Future Prospects", J. Nanosc. Nanotechnol. 21, 4981 (2021). CrossRef M.A. Butt, M. Shahbaz, L. Kozłowski, A. Kaźmierczak, R. Piramidowicz, "A Concise Review of the Progress in Photonic Sensing Devices", Photonics 10, 208 (2023). CrossRef M.A. Butt et al. "HYPHa project: a low-cost alternative for integrated photonics", Photonics Lett. Pol. 14, 25 (2022). CrossRef

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“…The optical platforms studied in this review are highly attractive, and the photonic devices realized on them show good performance. However, according to the author's opinion, there is still a need to research low-cost materials and fabrication procedures that can reduce the device cost in general [202][203][204][205]. For instance, the Si platform is wellexplored, and the fabrication processes are well-optimized.…”

Section: Outlook and Conclusionmentioning

confidence: 99%

Advances in Waveguide Bragg Grating Structures, Platforms, and Applications: An Up-to-Date Appraisal

2022

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A Bragg grating (BG) is a one-dimensional optical device that may reflect a specific wavelength of light while transmitting all others. It is created by the periodic fluctuation of the refractive index in the waveguide (WG). The reflectivity of a BG is specified by the index modulation profile. A Bragg grating is a flexible optical filter that has found broad use in several scientific and industrial domains due to its straightforward construction and distinctive filtering capacity. WG BGs are also widely utilized in sensing applications due to their easy integration and high sensitivity. Sensors that utilize optical signals for sensing have several benefits over conventional sensors that use electric signals to achieve detection, including being lighter, having a strong ability to resist electromagnetic interference, consuming less power, operating over a wider frequency range, performing consistently, operating at a high speed, and experiencing less loss and crosstalk. WG BGs are simple to include in chips and are compatible with complementary metal-oxide-semiconductor (CMOS) manufacturing processes. In this review, WG BG structures based on three major optical platforms including semiconductors, polymers, and plasmonics are discussed for filtering and sensing applications. Based on the desired application and available fabrication facilities, the optical platform is selected, which mainly regulates the device performance and footprint.

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HYPHa project: a low-cost alternative for integrated photonics

Cited by 4 publications

References 13 publications

Semi-Analytical Approach versus Finite Element Method for Analysis of Propagation Properties in Rectangular Waveguides: Silica-Titania Technological Platform

Semi-Analytical Approach versus Finite Element Method for Analysis of Propagation Properties in Rectangular Waveguides: Silica-Titania Technological Platform

Technological challenges in the development of silica-titania platform for integrated optics

Advances in Waveguide Bragg Grating Structures, Platforms, and Applications: An Up-to-Date Appraisal

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