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Main Authors: Kellner, Jost, Sabatti, Alessandra, Meader, Andreas, Grange, Rachel
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2501.17050
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author Kellner, Jost
Sabatti, Alessandra
Meader, Andreas
Grange, Rachel
author_facet Kellner, Jost
Sabatti, Alessandra
Meader, Andreas
Grange, Rachel
contents Optical parametric oscillators (OPOs) have been studied as basic components for optical computing with phase encoding and Ising machines. Integrated photonics offers a scalable solution to incorporate a progressively larger number of devices towards a functional computing module. Among the available platforms, lithium niobate on insulator is an excellent candidate for this goal thanks to its large second order nonlinearity, which can be leveraged via periodic poling of the thin film. In this work, we show a device with a 2.5 mW threshold for parametric oscillation, which is the lowest reported to date among double-resonant OPOs. We use a novel configuration with a Fabry-Pérot cavity, which reduces the footprint compared to a typical ring resonator by a factor 10. Tuning our devices using pump wavelength and local heating, we can operate the oscillators at degeneracy, which is crucial for logical operations requiring phase bistability. Our results showcase the device as an ideal building block for phase-encoded integrated optical computing, enabling spatial multiplexing with reduced footprint and power consumption.
format Preprint
id arxiv_https___arxiv_org_abs_2501_17050
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Low threshold integrated optical parametric oscillator with a compact Bragg resonator
Kellner, Jost
Sabatti, Alessandra
Meader, Andreas
Grange, Rachel
Optics
Optical parametric oscillators (OPOs) have been studied as basic components for optical computing with phase encoding and Ising machines. Integrated photonics offers a scalable solution to incorporate a progressively larger number of devices towards a functional computing module. Among the available platforms, lithium niobate on insulator is an excellent candidate for this goal thanks to its large second order nonlinearity, which can be leveraged via periodic poling of the thin film. In this work, we show a device with a 2.5 mW threshold for parametric oscillation, which is the lowest reported to date among double-resonant OPOs. We use a novel configuration with a Fabry-Pérot cavity, which reduces the footprint compared to a typical ring resonator by a factor 10. Tuning our devices using pump wavelength and local heating, we can operate the oscillators at degeneracy, which is crucial for logical operations requiring phase bistability. Our results showcase the device as an ideal building block for phase-encoded integrated optical computing, enabling spatial multiplexing with reduced footprint and power consumption.
title Low threshold integrated optical parametric oscillator with a compact Bragg resonator
topic Optics
url https://arxiv.org/abs/2501.17050