Martin Ziman scite author profile

Martin Ziman

5Publications

4Citation Statements Received

43Citation Statements Given

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107

Affiliations

Slovak University of Technology in Bratislava

Publications

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3D Polymer-Based 1 × 4 MMI Splitter

et al. 2022

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Due to the increasing trend of photonic device miniaturisation, there is also an increased need for optical splitting in a small volume. We propose a smart solution to split light in three dimensions (3D). A 3D optical splitter based on multimode interference (MMI) for the wavelength of 1550 nm is here designed, simulated, fabricated and optimised for splitting at 1550 nm. We focus also on the possibility of its direct integration on an optical fibre. The design is focused on the use of 3D laser lithography based on the direct laser writing (DLW) process. The output characteristics are investigated by near-field measurement, where we confirm the successful 1 × 4 splitting on a 158 µm long MMI splitter.

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Design of a Power Splitter Based on a 3D MMI Coupler at the Fibre-Tip

et al. 2022

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Planar MMI couplers based on inorganic material platforms have played an essential role in photonic integrated circuits development. Advances in organic polymer fabrication techniques enable the design of components beyond a single plane, thus facilitating vertical integration for a wide range of components, including the MMI coupler. This paper presents the design of two 3D IP-dip polymer-based MMI power splitters operating in the near-infrared part of the spectrum at a wavelength of 1550 nm. The resulting output power ratio, modal field distributions, spectral characteristics, and the effects of input fibre misalignment are investigated using the beam propagation method. The fabrication method used to realise the designed splitters was direct laser writing. The function of the splitters was then verified by a highly resolved near-field scanning optical microscope.

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Design of Optimal SPR-Based Multimode Waveguide Sensor for a Wide Range of Liquid Analytes

et al. 2023

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Surface plasmon resonance (SPR)-based sensors have attracted huge interest due to their ability to provide real-time sensing of a wide range of quantities, while still boasting high sensitivity, low cost, and electromagnetic immunity. Among various types of these sensors, waveguide-based sensors show great promise in terms of integrability into more complex circuits while still maintaining similar sensitivity and versatility as their stand-alone counterparts. This paper presents the results of investigation based on design and simulation of optimal parameters for multimode SPR-based waveguide sensor sensitive to any commonly used liquid analytes. The sensitivity for a wider range of analytes is achieved by utilisation of SiON material platform because refractive index adjustability of SiON offers a way to tailor sensor’s sensitivity to exact applications and analytes. One of the research goals in this work was to show that multi-mode waveguides may be suitable for such sensors with comparable sensitivity and higher transmission rates as single-mode waveguides. To showcase design possibilities, two variations with the same design and material’s refractive index adjustment only were investigated, and their optimal parameters have been found. Sensitivity for all commonly used liquid analytes was validated, with sensitivity rising to 1400 nm/RIU for label-free refractive index sensing, even without the use of any sensitivity-enhancing structures.

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1 x 9 MMI splitter prepared by 3D lithography and characterized by NSOM

Gaso

Mizera²,

Pudiš³

et al. 2022

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We proposed, simulated and fabricated a new type of three-dimensional (3D) optical splitter based on multimode interference (MMI). Splitter was designed for the wavelength of 1550 nm and the input signal is divided into 9 outputs. The multimode waveguide part of the splitter was designed as a block with square basis of cross-section of 26 x 26 μm2 and length of 211 μm. We used the IP-Dip polymer as a standard material for 3D laser lithography. We present the design, simulated and measured optical field distribution in the output of the MMI splitter and its direct integration on the single mode optical fiber.

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Total internal reflection ellipsometry of Au/SiOxNy waveguide structures for sensor applications

Chlpík¹,

Kováčová²,

Podlucký³

et al. 2023

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Martin Ziman

3D Polymer-Based 1 × 4 MMI Splitter

Design of a Power Splitter Based on a 3D MMI Coupler at the Fibre-Tip

Design of Optimal SPR-Based Multimode Waveguide Sensor for a Wide Range of Liquid Analytes

1 x 9 MMI splitter prepared by 3D lithography and characterized by NSOM

Total internal reflection ellipsometry of Au/SiOxNy waveguide structures for sensor applications

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