High Volume Electrical Characterization of Semiconductor Qubits

Authors :: A. M. Zwerver
Lester Lampert
Patrick H. Keys
Eric M. Henry
K. Millard
N. Kashani
Payam Amin
Menno Veldhorst
G. Scappucci
Jessica M. Torres
James S. Clarke
R. Pillarisetty
Nicole K. Thomas
Thomas F. Watson
Tobias Krähenmann
Hubert C. George
Bojarski Stephanie A
Otto Zietz
F. Luthi
Roza Kotlyar
Jeanette M. Roberts
David J. Michalak
Lieven M. K. Vandersypen
Roman Caudillo
Source :: 2019 IEEE International Electron Devices Meeting, IEDM 2019, 2019-December
Publication Year :: 2019
Publisher :: IEEE, 2019.
Abstract: Perhaps the greatest challenge facing quantum computing hardware development is the lack of a high throughput electrical characterization infrastructure at the cryogenic temperatures required for qubit measurements. In this article, we discuss our efforts to develop such a line to guide 300mm spin qubit process development. This includes (i) working with our supply chain to create the required cryogenic high volume testing ecosystem, (ii) driving full wafer cryogenic testing for both transistor and quantum dot statistics, and (iii) utilizing this line to develop a quantum dot process resulting in key electrical data comparable to that from leading devices in literature, but with unprecedented yield and reproducibility.