Incorporating Carbon Nanotubes into a Superconducting Quantum Bit

Denae T Cherry; Nathan Thobabin; Kaiwen Zheng; Robert L Cooper; Kater Murch; Irma Kuljanishvili; David S Wisbey

Incorporating Carbon Nanotubes into a Superconducting Quantum Bit

ORAL

Abstract

We look at the properties of carbon nanotubes (CNTs) grown on sapphire and quartz. Sapphire and quartz have several attractive features for incorporating CNTs into a quantum bit. Sapphire and quartz are transparent and could be used in a flip-chip design. While sapphire is a plausible alternative to silicone for resonators and qubits, we also measure the properties of quartz. Quartz was found to have a high internal loss. We also look at the effect of radiation on these devices and test their electrical properties and ability to function in the presence of ionizing radiation.

^* Naval Surface Warfare Center, Crane Division

March 8, 2024, 3:18 PM – March 8, 2024, 3:30 PM

Presenters

Denae T Cherry

Saint Louis University

Authors

Denae T Cherry

Saint Louis University
Nathan Thobabin

Saint Louis University
Kaiwen Zheng

Washington University Saint Louis, Washington University
Robert L Cooper

Naval Surface Warfare Center, Crane Division
Kater Murch

Washington University, St. Louis
Irma Kuljanishvili

Saint Louis University, Department of Physics, Saint Louis University, St. Louis, MO 63103
David S Wisbey

Saint Louis University