Improving qubit performance through engineering of the substrate-Josephson junction interface.

Cameron J Kopas; Dominic P Goronzy; Thang T Pham; Carlos G G Torres Castanedo; Matthew M Cheng; Hilal Cansizoglu; Rory Cochrane; Burcu Ercan; Jin-Su Oh; Akshay A Murthy; Ella O Lachman; Alexander Romanenko; Anna Grassellino; Matthew J Kramer; Lin Zhou; Michael J Bedzyk; Josh Y Mutus; Vinayak P Dravid; Mark C Hersam; Kameshwar Yadavalli

Improving qubit performance through engineering of the substrate-Josephson junction interface.

ORAL

Abstract

The performance of a superconducting qubit is often limited by dissipation and two-level systems (TLS) losses. The dominant sources of these losses are believed to originate from interfaces and surfaces, likely as a result of fabrication processes, materials, or atmospheric exposure. We show an example of a chemical surface treatment that modifies the Josephson Junction-substrate interface, resulting in statistically significant improvement in T1 (>25% improvement) and a reduction in the density of strongly-coupled TLS. As this treatment primarily modifies the Josephson junction-substrate interface, we perform targeted chemical, and structural characterizations of that interface and correlate those with qubit measurements.

^* This material is based upon work supported by the U.S. Department of Energy, Office of Science, National Quantum Information Science Research Centers, Superconducting Quantum Materials and Systems Center (SQMS) under contract number DE-AC02-07CH11359.

March 5, 2024, 10:00 AM – March 5, 2024, 10:12 AM

Presenters

Cameron J Kopas

Rigetti Quantum Computing, Rigetti Computing, Inc.

Authors

Cameron J Kopas

Rigetti Quantum Computing, Rigetti Computing, Inc.
Dominic P Goronzy

Northwestern University
Thang T Pham

Northwestern University
Carlos G G Torres Castanedo

Northwestern University
Matthew M Cheng

Northwestern University
Hilal Cansizoglu

Rigetti Computing, Rigetti Computing, Inc.
Rory Cochrane

Rigetti Computing, Ins., Rigetti Quantum Computing
Burcu Ercan

Rigetti Quantum Computing
Jin-Su Oh

Ames Laboratory
Akshay A Murthy

Fermilab, Fermi National Accelerator Laboratory
Ella O Lachman

Rigetti Computing, Inc., Rigetti Quantum Computing, Rigetti
Alexander Romanenko

Fermilab, Fermi National Accelerator Laboratory
Anna Grassellino

Fermilab, Fermi National Accelerator Laboratory
Matthew J Kramer

Ames National Laboratory
Lin Zhou

Ames National Laboratory
Michael J Bedzyk

Northwestern University
Josh Y Mutus

Rigetti Computing, Inc., Rigetti Quantum Computing, Rigetti Computing Inc
Vinayak P Dravid

Northwestern University
Mark C Hersam

Northwestern University
Kameshwar Yadavalli

Rigetti Quantum Computing