Characterization of MBE-grown Ge/SiGe Josephson junctions for voltage tunable qubits

Joshua P Thompson; Chomani Gaspe; Jason T Dong; Riis Card; Kasra Sardashti; Shiva Davari Dolatabadi; Brycelynn Bailey; Hugh O. H. Churchill; Kyle Serniak; Thomas M Hazard; Christopher J Richardson

Characterization of MBE-grown Ge/SiGe Josephson junctions for voltage tunable qubits

ORAL

Abstract

Planar Josephson junctions are fabricated using undoped germanium quantum wells (Ge-QWs) on top of a 2.5-μm tall mesa. The compressively stained Ge-QW and relaxed silicon germanium (SiGe) barrier material is grown using Molecular Beam Epitaxy (MBE) and has a carrier mobility greater than 60,000 cm²/Vs with a hole density less than 1x10¹² cm^-2. The SiGe mesa is necessarily created to isolate the lossy epitaxial layers from the rest of the circuit and is one of the essential elements needed to create a voltage tunable SiGe transmon qubit. This presentation will discuss the fabrication and preliminary characterization of electrostatically gated Josephson junction devices.

March 19, 2025, 7:24 PM – March 19, 2025, 7:36 PM

Presenters

Joshua P Thompson

Laboratory for Physical Sciences (LPS)

Authors

Joshua P Thompson

Laboratory for Physical Sciences (LPS)
Chomani Gaspe

Laboratory for Physical Sciences (LPS)
Jason T Dong

Laboratory for Physical Science (LPS)
Riis Card

Laboratory for Physical Sciences (LPS)
Kasra Sardashti

Laboratory for Physical Sciences (LPS)
Shiva Davari Dolatabadi

University of Arkansas
Brycelynn Bailey

University of Arkansas
Hugh O. H. Churchill

University of Arkansas
Kyle Serniak

MIT Lincoln Laboratory, Lincoln Laboratory, Massachusetts Institute of Technology
Thomas M Hazard

MIT Lincoln Laboratory
Christopher J Richardson

Laboratory for Physical Sciences (LPS)