Litcius/Paper detail

Vacuum characterization of a compact room-temperature trapped ion system

Yuhi Aikyo, Geert Vrijsen, Thomas W. Noel, Alexander Kato, Megan K. Ivory, Jungsang Kim

2020Applied Physics Letters12 citationsDOIOpen Access PDF

Abstract

We present the design and vacuum performance of a compact room-temperature trapped ion system for quantum computing, consisting of an ultra-high vacuum (UHV) package, a micro-fabricated surface trap, and a small form-factor ion pump. The system is designed to maximize mechanical stability and robustness by minimizing the system size and weight. The internal volume of the UHV package is only ≈2 cm3, a significant reduction in comparison with conventional vacuum chambers used in trapped ion experiments. We demonstrate trapping of 174Yb+ ions in this system and characterize the vacuum level in the UHV package by monitoring both the rates of ion hopping in a double-well potential and ion chain reordering events. The calculated pressure in this vacuum package is ≈2.2×1011 Torr, which is sufficient for the majority of current trapped ion experiments.

Topics & Concepts

IonTrappingMaterials scienceAtomic physicsUltra-high vacuumCharacterization (materials science)Ion trappingVacuum levelIon currentAmbient pressureChemistryOptoelectronicsRobustness (evolution)Volume (thermodynamics)Vacuum arcAnalytical Chemistry (journal)Trapped ion quantum computerIon beam depositionIon sourceIon trapCurrent (fluid)Ion beamAtomic and Molecular PhysicsQuantum Information and CryptographyAdvanced Frequency and Time Standards