Ultraviolet imprinting and aligned ink-jet printing for multilayer patterning of electro-optic polymer modulators

Xiaohui Lin; Tao Ling; Harish Subbaraman; Xingyu Zhang; Kwangsub Byun; L. Jay Guo; Ray T. Chen

doi:10.1364/OL.38.001597

Optics Letters
Vol. 38,
Issue 10,
pp. 1597-1599
(2013)
•https://doi.org/10.1364/OL.38.001597

Ultraviolet imprinting and aligned ink-jet printing for multilayer patterning of electro-optic polymer modulators

Xiaohui Lin, Tao Ling, Harish Subbaraman, Xingyu Zhang, Kwangsub Byun, L. Jay Guo, and Ray T. Chen

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Xiaohui Lin, Tao Ling, Harish Subbaraman, Xingyu Zhang, Kwangsub Byun, L. Jay Guo, and Ray T. Chen, "Ultraviolet imprinting and aligned ink-jet printing for multilayer patterning of electro-optic polymer modulators," Opt. Lett. 38, 1597-1599 (2013)

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Abstract

The present work demonstrates an electro-optic polymer-based Mach–Zehnder (MZ) modulator fabricated utilizing advanced ultraviolet (UV) imprinting and aligned ink-jet printing technologies for patterning and layer deposition. The bottom electrode layer is designed and directly ink-jet printed on the substrate to form the patterned layer. The waveguide structure is formed into a bottom cladding polymer using a transparent flexible mold-based UV imprinting method. All other layers can be ink-jet printed. The top electrode is aligned and printed over the MZ arm. The modulator demonstrates a $V$ -pi of 8 V at 3 kHz. This technology shows great potential in minimizing the fabrication complexity and roll-to-roll compatibility for manufacturing low cost, lightweight, and conformal modulators at high throughput.

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Optics Letters