Autonomous multi-ion optical clock with on-chip integrated photonic light delivery

• URL: http://arxiv.org/abs/2512.08921v2
• Date: Wed, 10 Dec 2025 18:42:47 GMT
• Title: Autonomous multi-ion optical clock with on-chip integrated photonic light delivery
• Authors: Tharon D. Morrison, Joonhyuk Kwon, Matthew A. Delaney, David R. Leibrandt, Daniel Stick, Hayden J. McGuinness,
• Abstract summary: Integrated photonics in trapped-ion systems are critical for realization of applications such as portable optical atomic clocks and scalable quantum computers.<n>We demonstrate an autonomously operating optical clock having a short-term frequency instability of $3.14(5)times 10-14 / sqrt$.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Integrated photonics in trapped-ion systems are critical for the realization of applications such as portable optical atomic clocks and scalable quantum computers. However, system-level integration of all required functionalities remains a key challenge. In this work, we demonstrate an autonomously operating optical clock having a short-term frequency instability of $3.14(5)\times 10^{-14} / \sqrtτ$ using an ensemble of four $^{171}\textrm{Yb}^{+}$ ions trapped in a multi-site surface-electrode trap at room temperature. All clock operations are performed with light delivered via on-chip waveguides. We showcase the system's resilience through sustained, autonomous operation featuring automated ion shuttling and reloading to mitigate ion loss during interleaved clock measurements. This work paves the way beyond component-level functionality to establish a viable and robust architecture for the next generation of portable, multi-ion quantum sensors and computers.

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