Towards Developing a Graphene Josepheson junction based qubit device

Kyle McElroy; Jesse E Thompson; Brandon T Blue; Lafe Spietz; Jacob Epstein; Masa Ishigami; Joan A Hoffmann

Towards Developing a Graphene Josepheson junction based qubit device

ORAL

Abstract

Construction of Josepheson weak links is an integral part of superconducting quantum devices. New junction structures have various potential applications as new qubits or sensors. We will discuss the preliminary development of a transmon with a graphene based Josepheson junction. The devices are fabricated using epitaxially grown graphene, transferred to a sapphire base with standard lithographic techniques used for junction and antenna layout. The junctions are designed to have 0.3-0.85 nA critical currents and antenna geometry for device resonances between 2-6 GHz and are imbedded in a high Q 3D cavity at 7.7 GHz.

March 4, 2019, 4:06 PM – March 4, 2019, 4:18 PM

Presenters

Kyle McElroy

Johns Hopkins University Applied Physics Laboratory, The Johns Hopkins University Applied Physics Laboratory

Authors

Kyle McElroy

Johns Hopkins University Applied Physics Laboratory, The Johns Hopkins University Applied Physics Laboratory
Jesse E Thompson

Department of Physics and Nanoscience Technology, University of Central Florida
Brandon T Blue

Department of Physics and Nanoscience Technology, University of Central Florida
Lafe Spietz

Spietz Applied Sciences, LLC
Jacob Epstein

Applied Physics Laboratory, Johns Hopkins University Applied Physics Laboratory, The Johns Hopkins University Applied Physics Laboratory
Masa Ishigami

Department of Physics and Nanoscience Technology, University of Central Florida
Joan A Hoffmann

Johns Hopkins University Applied Physics Laboratory, The Johns Hopkins University Applied Physics Laboratory