Fault localization in a microfabricated surface ion trap using diamond nitrogen-vacancy center magnetometry
At a Glance
Section titled āAt a Glanceā| Metadata | Details |
|---|---|
| Publication Date | 2024-12-16 |
| Journal | Applied Physics Letters |
| Authors | Pauli Kehayias, Matthew A. Delaney, Raymond A. Haltli, Susan Clark, Melissa Revelle |
| Institutions | Center for Integrated Nanotechnologies, Sandia National Laboratories |
| Citations | 3 |
Abstract
Section titled āAbstractāAs quantum computing hardware becomes more complex with ongoing design innovations and growing capabilities, the quantum computing community needs increasingly powerful techniques for fabrication failure root-cause analysis. This is especially true for trapped-ion quantum computing. As trapped-ion quantum computing aims to scale to thousands of ions, the electrode numbers are growing to several hundred, with likely integrated photonic components also adding to the electrical and fabrication complexity, making faults even harder to locate. In this work, we used a high-resolution quantum magnetic imaging technique, based on nitrogen-vacancy centers in diamond, to investigate short-circuit faults in an ion trap chip. We imaged currents from these short-circuit faults to ground and compared them to intentionally created faults, finding that the root cause of the faults was failures in the on-chip trench capacitors. This work, where we exploited the performance advantages of a quantum magnetic sensing technique to troubleshoot a piece of quantum computing hardware, is a unique example of the evolving synergy between emerging quantum technologies to achieve capabilities that were previously inaccessible.
Tech Support
Section titled āTech SupportāOriginal Source
Section titled āOriginal SourceāReferences
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