Fernando J. Gordo scite author profile

Fernando J. Gordo

3Publications

2Citation Statements Received

41Citation Statements Given

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Universidad Politécnica de Madrid

Publications

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Liquid crystal tunable claddings for polymer integrated optical waveguides

Otón¹,

Caño‐García²,

Gordo³

et al. 2019

Beilstein J. Nanotechnol.

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Optical waveguides in photonic integrated circuits are traditionally passive elements merely carrying optical signals from one point to another. These elements could contribute to the integrated circuit functionality if they were modulated either by variations of the core optical properties, or by using tunable claddings. In this work, the use of liquid crystals as electro-optically active claddings for driving integrated waveguides has been explored. Tunable waveguides have been modeled and fabricated using polymers. Optical functions such as variable coupling and optical switching have been demonstrated.

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Design and manufacture of an all-polymeric integrated multimode interferometer for visible photonics

Gordo

Tátá²,

Borme³

et al. 2022

Opt. Express

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This work demonstrates an integrated multimode interferometer (MMI) based on a fully polymeric platform and optimized for visible range operation. The dimensions of a 2×2 MMI are first calculated analytically and simulated using finite elements method. The devices are manufactured using two layers of negative tone photoresists. The top layer is patterned by e-beam lithography demonstrating the adaptability of this material, naturally designed to respond to UV radiation. Fabrication tolerance was smaller than 100 nm. Devices were optically characterized with a 635 nm input source and the best performance for a 3 dB power splitter was found at an interferometric cavity dimension of 10.5 × 190.68 µm. Other interferometric lengths were characterized to establish a process design kit that allows future use of this platform in more complex photonic integrated circuits architectures.

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Integrated Mach–Zehnder Interferometer Based on Liquid Crystal Evanescent Field Tuning

Caño‐García

Poudereux²,

Gordo

et al. 2019

Crystals

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In this work, the performance of a Mach-Zehnder interferometer manufactured in silicon nitride with a liquid crystal cladding is studied. The device consists of two multi-mode interference couplers linked by two rectangular waveguides, the cladding of one of which is a liquid crystal. The structure demonstrates the potential of using liquid crystals as tunable cladding material in simple waveguides as well as in more complex coupling or modulating structures. Liquid crystal cladding permits a local fine-tuning of the effective refractive index of the waveguide, avoiding coarse global temperature control. The study is realized in the visible region (632.8 nm), for its intrinsic interest region in (bio-)sensing or metrology.

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Fernando J. Gordo

Liquid crystal tunable claddings for polymer integrated optical waveguides

Design and manufacture of an all-polymeric integrated multimode interferometer for visible photonics

Integrated Mach–Zehnder Interferometer Based on Liquid Crystal Evanescent Field Tuning

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