# Engineering of Microfabricated Ion Traps and Integration of Advanced   On-Chip Features

**Authors:** Zak David Romaszko, Seokjun Hong, Martin Siegele, Reuben Kahan Puddy,, Foni Rapha\"el Lebrun-Gallagher, Sebastian Weidt, Winfried Karl Hensinger

arXiv: 1908.00267 · 2020-07-24

## TL;DR

This paper reviews the design, fabrication, and integration of microfabricated ion traps for quantum technologies, emphasizing advanced on-chip features and materials to enable scalable, reliable devices for quantum computing, sensing, and related applications.

## Contribution

It provides a comprehensive overview of microfabrication techniques and discusses innovative on-chip features for next-generation ion traps, advancing the field towards scalable quantum devices.

## Key findings

- Analysis of current microfabrication methods for ion traps
- Discussion of material choices for device reliability
- Evaluation of on-chip features for enhanced functionality

## Abstract

Trapped atomic ions are a proven and powerful tool for the fundamental research of quantum physics. They have emerged in recent years as one of the most promising candidates for several practical technologies including quantum computers, quantum simulators, atomic clocks, mass spectrometers and quantum sensors. Advanced fabrication techniques, taken from established and nascent disciplines, are being deployed to create novel, reliable devices with a view to large scale integration and commercial compatibility. This review will cover the fundamentals of ion trapping before proceeding with a discussion of the design of ion traps for the aforementioned applications. We will analyse current microfabrication techniques that are being utilised, as well as various considerations which motivate the choice of materials and processes. Finally, we discuss current efforts to include advanced, on-chip features into next generation ion traps.

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Source: https://tomesphere.com/paper/1908.00267