High-Fidelity Entangling Gates with Tunable Couplers: Part 1

Yutaka Takeda; Elam James Blackwell; Shravan Patel; Matthew Snyder; Spencer Weeden; Sohair Abdullah; Britton L Plourde; John M Martinis; Robert F McDermott

High-Fidelity Entangling Gates with Tunable Couplers: Part 1

ORAL

Abstract

Two-qubit entangling gate error is the most important metric for development of robust systems of interacting qubits. Approaches involving tunable couplers are needed to suppress idle errors to an acceptable level. Here we describe an optimized circuit involving tunable transmons that interact via a tunable coupler. In this first part of a two-part presentation, we discuss Hamiltonian-level simulation of the circuit and optimization to suppress coherent error.

March 20, 2025, 4:06 PM – March 20, 2025, 4:18 PM

Presenters

Yutaka Takeda

University of Wisconsin - Madison

Authors

Yutaka Takeda

University of Wisconsin - Madison
Elam James Blackwell

University of Wisconsin Madison
Shravan Patel

University of Wisconsin - Madison
Matthew Snyder

University of Wisconsin - Madison
Spencer Weeden

University of Wisconsin - Madison
Sohair Abdullah

University of Wisconsin - Madison
Britton L Plourde

University of Wisconsin-Madison, University of Wisconsin - Madison
John M Martinis

Qolab Inc, University of California, Santa Barbara, Qolab, Qolab, Inc
Robert F McDermott

University of Wisconsin - Madison, Qolab