Lithium niobate modulators on silicon beyond 20 GHz

Abstract: Compact lithium niobate electrooptic MachZehnder modulators on silicon with 18 dB extinction ratio and record-low 3.1 V.cm half-wave voltage-length product are characterized up to 20 GHz, rendering them suitable for high-speed datacom applications.

“…Different materials, such as tantalum pentoxide and chalcogenide glass have been previously developed for low loss [19][20][21] and used for rib loading the house-made LN thin films for demonstrating optical modulators [17,18]. Another index-matching alternative material with a wide transmission window used by us for modulators is silicon nitride (SiN) [22]. A schematic of the PPLN on Si device with SiN ribs presented in this work is shown in Fig.…”

Second-harmonic generation in periodically-poled thin film lithium niobate wafer-bonded on silicon

“…Different materials, such as tantalum pentoxide and chalcogenide glass have been previously developed for low loss [19][20][21] and used for rib loading the house-made LN thin films for demonstrating optical modulators [17,18]. Another index-matching alternative material with a wide transmission window used by us for modulators is silicon nitride (SiN) [22]. A schematic of the PPLN on Si device with SiN ribs presented in this work is shown in Fig.…”

Second-harmonic generation in periodically-poled thin film lithium niobate wafer-bonded on silicon