AI Article Synopsis
- Electrically driven acousto-optic devices have applications in areas like pulse synthesis and heterodyne detection.
- They are typically based on bulk materials and require significant radio frequency power, but this study presents an innovative integrated 3-GHz acousto-optic frequency shifter using thin-film lithium niobate with impressive carrier suppression.
- The platform allows for the creation of a gigahertz-spaced optical frequency comb with over 200 lines and a 0.6-THz optical bandwidth, paving the way for advancements in on-chip optical routing, isolation, and microwave signal processing.
Article Abstract
Electrically driven acousto-optic devices that provide beam deflection and optical frequency shifting have broad applications from pulse synthesis to heterodyne detection. Commercially available acousto-optic modulators are based on bulk materials and consume Watts of radio frequency power. Here, we demonstrate an integrated 3-GHz acousto-optic frequency shifter on thin-film lithium niobate, featuring a carrier suppression over 30 dB. Further, we demonstrate a gigahertz-spaced optical frequency comb featuring more than 200 lines over a 0.6-THz optical bandwidth by recirculating the light in an active frequency shifting loop. Our integrated acousto-optic platform leads to the development of on-chip optical routing, isolation, and microwave signal processing.
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| http://dx.doi.org/10.1364/OE.397138 | DOI Listing |
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