Towards a transmon qubit with gate-controlled Sn-InSb Josephson Junction

Amrita Purkayastha; Param J Patel; Azarin Zarassi; Mihir Pendharkar; Connor P Dempsey; Ghada Badawy; Erik P. A. M. Bakkers; Chris J Palmstrom; Michael J Hatridge; Sergey M Frolov

Towards a transmon qubit with gate-controlled Sn-InSb Josephson Junction

ORAL

Abstract

We report our experimental progress towards realizing gate tunable superconducting transmon qubit with the newly developed superconducting Sn shells on InSb nanowire as Josephson element. Gate tunable superconducting transmon qubits have previously been demonstrated with Al-InAs nanowire weak- link josephson junctions. These nanowire-based qubits are interesting for their gate tunability and high magnetic field compatibility. In our work, the readout circuit is made of high internal quality factor NbTiN co-planar waveguide resonators. With spectroscopic and time domain measurements we characterize and report on the relaxation and coherence times of these qubits.

March 15, 2022, 4:36 PM – March 15, 2022, 4:48 PM

Presenters

Amrita Purkayastha

University of Pittsburgh

Authors

Amrita Purkayastha

University of Pittsburgh
Param J Patel

University of Pittsburgh
Azarin Zarassi

University of Southern California
Mihir Pendharkar

Stanford Univ, Stanford University
Connor P Dempsey

University of California, Santa Barbara, Electrical and Computer Engineering, University of California Santa Barbara, Santa Barbara, California 93106, USA, University of California in Santa Barbara, University of California Santa Barbara
Ghada Badawy

Eindhoven University of Technology
Erik P. A. M. Bakkers

Eindhoven University of Technology
Chris J Palmstrom

University of California, Santa Barbara
Michael J Hatridge

University of Pittsburgh
Sergey M Frolov

University of Pittsburgh