We designed and produced an integrated silicon photonic circuit, in a single chip with IHP SG25H4_EPIC 0.25 µm technology. A Mach-Zehnder interferometer with an alternative shape for better integration, together with a standard-shape Mach-Zehnder interferometer have been realized. In this work, preliminary results of comparative performance measurements between the two Mach-Zehnder interferometer are shown.
Characterization and tests of different Mach-Zehnder silicon photonic modulator configurations / D. Badoni, V. Bonaiuto, M. Casalboni, F. De Matteis, G. Di Giuseppe, L. Frontini, R. Gunnella, V. Liberali, A. Mai, G. Paoluzzi, P. Prosposito, A. Salamon, G. Salina, F. Sargeni, S. Schrader, A. Stabile, P. Steglich (MATERIALS RESEARCH FOUNDATIONS). - In: Photonics and Photoactive Materials / [a cura di] P. Prosposito. - [s.l] : Association of American Publishers, 2020. - ISBN 9781644900710. - pp. 1-5 (( convegno EUROMAT tenutosi a Stockholm nel 2019 [10.21741/9781644900710-1].
Characterization and tests of different Mach-Zehnder silicon photonic modulator configurations
L. Frontini;V. Liberali;A. StabilePenultimo
;
2020
Abstract
We designed and produced an integrated silicon photonic circuit, in a single chip with IHP SG25H4_EPIC 0.25 µm technology. A Mach-Zehnder interferometer with an alternative shape for better integration, together with a standard-shape Mach-Zehnder interferometer have been realized. In this work, preliminary results of comparative performance measurements between the two Mach-Zehnder interferometer are shown.
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