Properties of Multimode Optical Epoxy Polymer Waveguides Deposited on Silicon and TOPAS Substrate

Prajzler, Václav; Neruda, Marek; Nekvindová, Pavla; Mikulı́k, Petr

doi:10.13164/re.2017.0010

Cited by 13 publications

(2 citation statements)

References 12 publications

(13 reference statements)

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“…The main limitations of these MMI splitters are polarization and wavelength dependency [22]. In recent years, it is established that the MMI structure could also find its application in inactive devices to improve waveguide laser performances [23].…”

Section: Introductionmentioning

confidence: 99%

Step and graded-index core-based polymer multimode interference splitters for photonic integrated circuits

Rasel

Afsary

Alam

et al. 2023

Optik

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Section: Introductionmentioning

confidence: 99%

Step and graded-index core-based polymer multimode interference splitters for photonic integrated circuits

Rasel

Afsary

Alam

et al. 2023

Optik

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“…Owing to EpoCore’s ultraviolet (UV) photosensitivity, precise waveguide geometries can be defined by standard 365 nm photolithography processes. The cured epoxy resist provides polymer-typical optical transparency windows around the primary wavelengths 850 nm, 1310 nm, and 1550 nm [ 24 ]. Numerous optomechanical sensing concepts such as freestanding sensor foils with embedded EpoCore waveguide grating structures [ 25 ] or flexible carrier substrates with one-side EpoCore strip waveguides for 1550 nm [ 26 ] and 850 nm operation [ 27 ] have been demonstrated.…”

Section: Introductionmentioning

confidence: 99%

Deep UV Formation of Long-Term Stable Optical Bragg Gratings in Epoxy Waveguides and Their Biomedical Sensing Potentials

Hessler

Rüth

Lemke

et al. 2021

Sensors

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In this article, we summarize our investigations on optimized 248 nm deep ultraviolet (UV) fabrication of highly stable epoxy polymer Bragg grating sensors and their application for biomedical purposes. Employing m-line spectroscopy, deep UV photosensitivity of cross-linked EpoCore thin films in terms of responding refractive index change is determined to a maximum of Δn = + (1.8 ± 0.2) × 10−3. All-polymer waveguide Bragg gratings are fabricated by direct laser irradiation of lithographic EpoCore strip waveguides on compatible Topas 6017 substrates through standard +1/-1-order phase masks. According near-field simulations of realistic non-ideal phase masks provide insight into UV dose-dependent characteristics of the Bragg grating formation. By means of online monitoring, arising Bragg reflections during grating inscription via beforehand fiber-coupled waveguide samples, an optimum laser parameter set for well-detectable sensor reflection peaks in respect of peak strength, full width at half maximum and grating attenuation are derived. Promising blood analysis applications of optimized epoxy-based Bragg grating sensors are demonstrated in terms of bulk refractive index sensing of whole blood and selective surface refractive index sensing of human serum albumin.

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The properties of free-standing epoxy polymer multi-mode optical waveguides

et al. 2018

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Properties of Multimode Optical Epoxy Polymer Waveguides Deposited on Silicon and TOPAS Substrate

Cited by 13 publications

References 12 publications

Step and graded-index core-based polymer multimode interference splitters for photonic integrated circuits

Step and graded-index core-based polymer multimode interference splitters for photonic integrated circuits

Deep UV Formation of Long-Term Stable Optical Bragg Gratings in Epoxy Waveguides and Their Biomedical Sensing Potentials

The properties of free-standing epoxy polymer multi-mode optical waveguides

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