Understanding Loss Mechanisms in InAs-based Gatemon Qubits

Lukas J Baker; William Strickland; Krishna Dindal; Jaewoo Lee; Javad Shabani; Bassel H Heiba Elfekey; Jacob Issokson; Jacob Issokson; Ido Levy

Understanding Loss Mechanisms in InAs-based Gatemon Qubits

ORAL

Abstract

Gate tunable Josephson-Junction (JJ) devices on InAs, offer a promising avenue for implementation of voltage-controlled superconducting qubits. Preliminary results demonstrate notable tunability >1GHz in gatemon qubits, however they suffer from a multitude of loss mechanisms. Specific candidates include kinetic inductive losses in the resonators, radiative gate loss, dielectric loss, and junction loss. We present a strategy to quantify various mechanisms that manifest in resonator quality factors. We find that for thin Al, kinetic inductance based losses dominate. For thicker Al, losses are dominated by dielectric loss in the blanket ald layer, and the InP substrate.

March 4, 2024, 5:00 PM – March 4, 2024, 5:12 PM

Publication: Characterizing losses in InAs two-dimensional electron gas-based gatemon qubits

Presenters

Lukas J Baker
- New York University (NYU)

Authors

Lukas J Baker
- New York University (NYU)
William Strickland
- New York University
Krishna Dindal
- NYU
- New York University (NYU)
- New York University
Jaewoo Lee
- NYU
- New York University (NYU)
- New York University
Javad Shabani
- New York University
Bassel H Heiba Elfekey
- New York University (NYU)
- New York University
- New York Univeristy
Jacob Issokson
- NYU
- New York University (NYU)
- New York University
Jacob Issokson
- NYU
- New York University (NYU)
- New York University
Ido Levy
- New York University