Thin-film lithium niobate(TFLN)possesses great potential because it enables high-speed modulation by voltage,which allows higher resolution and lower power consumption for laser beam scanning than direct laser modulat...Thin-film lithium niobate(TFLN)possesses great potential because it enables high-speed modulation by voltage,which allows higher resolution and lower power consumption for laser beam scanning than direct laser modulation.To achieve these functions,a red,green,and blue(RGB)multiplexer using TFLN is required as an important building block for photonic integrated circuits.We fabricated an RGB multiplexer using TFLN and experimentally confirmed its operation.Three different laser lights of red(λ=638 nm),green(λ=520 nm),and blue(λ=473 nm)were successfully coupled as a single laser beam by an RGB multiplexer composed of multimode interferometers.Furthermore,the TFLN was fabricated by sputter deposition,whereas conventionally,it is fabricated via bulk-lithium niobate adhesion to the substrate.The sputterdeposited TFLN is advantageous for large-volume mass production.展开更多
文摘Thin-film lithium niobate(TFLN)possesses great potential because it enables high-speed modulation by voltage,which allows higher resolution and lower power consumption for laser beam scanning than direct laser modulation.To achieve these functions,a red,green,and blue(RGB)multiplexer using TFLN is required as an important building block for photonic integrated circuits.We fabricated an RGB multiplexer using TFLN and experimentally confirmed its operation.Three different laser lights of red(λ=638 nm),green(λ=520 nm),and blue(λ=473 nm)were successfully coupled as a single laser beam by an RGB multiplexer composed of multimode interferometers.Furthermore,the TFLN was fabricated by sputter deposition,whereas conventionally,it is fabricated via bulk-lithium niobate adhesion to the substrate.The sputterdeposited TFLN is advantageous for large-volume mass production.
