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.
Title resolution pending
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
Steady-state entanglement with concurrence above 0.9 is generated between optical emitters by optically tuning Rabi-split dressed states to couple via a THz channel and collective dissipation.
citing papers explorer
-
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.
-
Entanglement of two optical emitters mediated by a terahertz channel
Steady-state entanglement with concurrence above 0.9 is generated between optical emitters by optically tuning Rabi-split dressed states to couple via a THz channel and collective dissipation.