Thermal Reflow Engineered Cylindrical Polymer Waveguides for Optical Interconnects

Thermal Reflow Engineered Cylindrical Polymer Waveguides for Optical Interconnects

Integrated polymer photonics brings low cost and high fabrication flexibility to optoelectronic industry. However, this platform needs to overcome several issues to be effective enough for practical applications. In this letter, we experimentally demonstrate a decrease of propagation losses and pola...

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Veröffentlicht in:IEEE photonics technology letters 2018-03, Vol.30 (5), p.447-450
Hauptverfasser: Marinins, Aleksandrs, Ozolins, Oskars, Xiaodan Pang, Udalcovs, Aleksejs, Navarro, Jaime Rodrigo, Kakkar, Aditya, Schatz, Richard, Jacobsen, Gunnar, Popov, Sergei
Format: Artikel
Sprache:eng
Schlagworte:
Esters
Glass transition
Integrated optics
Integrated polymers
Light polarization
Optical attenuators
Optical device fabrication
Optical interconnections
Optical interconnects
Optical polarization
Optical polymers
Optical sensors
Optical waveguides
Optoelectronic industry
Polarization
Polarization sensitivity
Polymer waveguides
Polymers
Surface roughness
Waveguide components
Waveguide surfaces
Waveguides
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Zusammenfassung:Integrated polymer photonics brings low cost and high fabrication flexibility to optoelectronic industry. However, this platform needs to overcome several issues to be effective enough for practical applications. In this letter, we experimentally demonstrate a decrease of propagation losses and polarization sensitivity of polymer waveguide-based devices as a result of thermal treatment. Heating of poly(methyl methacrylate) strip optical waveguides above the glass transition temperature initiates a waveguide surface reflow due to a decrease of the polymer viscosity and surface tension energy. This results in a decrease of surface roughness and shape change from rectangular to cylindrical. Thus, scattering losses and polarization sensitivity are minimized.
ISSN:1041-1135
1941-0174
1941-0174
DOI:10.1109/LPT.2018.2797685