Towards high speed, low voltage electro-optical modulators in a foundry-process thin-film lithium niobate platform
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Author
Alberto Della Torre*, Ivan Prieto, Arno Mettraux, Homa Zarebidaki, Jacopo Leo, Michel Despont, Hamed Sattari
DOI
https://doi.org/10.5281/zenodo.15176067
Abstract
Integrated electro-optical modulators with small footprints and low half-wave voltage are essential for applications requiring high integration density and low power consumption. Modulators based on thin-film lithium niobate technology have been proven to perform excellently, both in terms of low voltage and high bandwidth operation. However, achieving half-wave voltages of ∼1 V, which allows to directly drive the modulator with CMOS circuits, typically requires long structures. Folding the device is a possible approach to achieve a CMOS-compatible voltage level in a compact design. Yet, this method requires meticulous design and advanced manufacturing technology. To achieve large scale deployment of this technology, it is imperative to further develop thin-film lithium niobate photonic integrated circuits manufacturing. Here, we address these requirements and report folded electro-optical modulators, operating at 1550 nm in TE polarization, with half-wave voltage as low as 0.9 V or bandwidths up to beyond 40 GHz in a compact 5 mm × 5 mm chip fabricated in CSEM’s open-access foundry process using standardized process design kit components.
Publication Reference
Opt. Express 33, 6747-6757 (2025)
Year
2025