An on-chip OPO on thin-film lithium niobate produces 22 THz of voltage-tunable mid-IR output from 2.7-3.4 microns with coarse-to-fine electrical control via the Vernier effect.
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Demonstrates magneto-optical traps for all stable strontium isotopes using co-designed atomic beam slowing, PIC-met surface laser delivery, and integrated frequency-comb stabilization, advancing bulk-optics-free Sr optical clocks.
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Ultra-wideband electrically-tuned mid-infrared on-chip parametric oscillator
An on-chip OPO on thin-film lithium niobate produces 22 THz of voltage-tunable mid-IR output from 2.7-3.4 microns with coarse-to-fine electrical control via the Vernier effect.
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A scalable infrastructure for strontium optical clocks with integrated photonics
Demonstrates magneto-optical traps for all stable strontium isotopes using co-designed atomic beam slowing, PIC-met surface laser delivery, and integrated frequency-comb stabilization, advancing bulk-optics-free Sr optical clocks.