A Compact Cryogenic Package Approach to Ion Trapping

Robert Spivey; Volkan Inlek; Geert Vrijsen; Yuhi Aikyo; Megan Ivory; Alex Kato; Evan Salim; Peter Maunz; Andrew Hollowell; Jungsang Kim

A Compact Cryogenic Package Approach to Ion Trapping

ORAL

Abstract

One challenge for the expansion of trapped ion systems to a large scale is the lack of repeatable integration technology to realize compact and stable operating environment. We present a novel ion trap package where conventional ultra-high vacuum (UHV) chambers are replaced with a hermetically sealed package operating in a cryogenic (5K) environment. A microfabricated surface ion trap mounted on a modified 100-pin ceramic pin grid array (CPGA) package is placed into a UHV environment. A titanium lid with windows for optical access is then attached to the CPGA via an indium seal. This seal, along with the cryogenic pumping and activated charcoal getters maintains the UHV conditions for the ion trap. Laser ablation is used to load Ytterbium ions from a target inside the small package. We present progress towards trapping in this environment as well as characterization of the ablation source.

^*Funded by IARPA

May 31, 2018, 9:00 AM – May 31, 2018, 9:12 AM

Authors

Robert Spivey
- Duke University Department of Electrical and Computer Engineering
Volkan Inlek
- Duke University
- Duke University Department of Electrical and Computer Engineering
Geert Vrijsen
- Duke University
- Duke University Department of Electrical and Computer Engineering
- Duke Univ
Yuhi Aikyo
- Duke University
- Duke University Department of Electrical and Computer Engineering
Megan Ivory
- ColdQuanta, Inc.
Alex Kato
- ColdQuanta, Inc.
Evan Salim
- ColdQuanta, Inc.
Peter Maunz
- Sandia National Laboratories
Andrew Hollowell
- Sandia National Laboratories
Jungsang Kim
- Duke University
- Duke University Department of Electrical and Computer Engineering
- Duke Univ