First experimental thin-film lithium tantalate electro-optic modulator at 1 μm wavelength with Vπ of 2.4 V and less than 2 dB electro-optic roll-off up to 50 GHz.
Integrated photonics on thin-film lithium niobate.Advances in Optics and Photonics, 13(2):242–352
3 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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physics.optics 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Annealed oxide-cladded TFLT microrings handle 4 W circulating power stably without photo-refractive effects, and a 2 mm EO modulator reaches 3 V Vpi with bias stability.
Thin-film lithium tantalate modulators show unchanged modulation and bandwidth plus DC-bias stability at 120°C with 10% lower Vπ at elevated temperatures, enabling uncooled co-packaged optics.
citing papers explorer
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High bandwidth traveling wave electro-optic modulator at 1{\mu}m on thin-film lithium tantalate
First experimental thin-film lithium tantalate electro-optic modulator at 1 μm wavelength with Vπ of 2.4 V and less than 2 dB electro-optic roll-off up to 50 GHz.
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High-power handling and bias stability of thin-film Lithium Tantalate microring and coupling resonators
Annealed oxide-cladded TFLT microrings handle 4 W circulating power stably without photo-refractive effects, and a 2 mm EO modulator reaches 3 V Vpi with bias stability.
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Stable thin-film lithium tantalate modulators operating at high temperature for uncooled operation
Thin-film lithium tantalate modulators show unchanged modulation and bandwidth plus DC-bias stability at 120°C with 10% lower Vπ at elevated temperatures, enabling uncooled co-packaged optics.