Three-electron spin qubits

TL;DR

This review paper summarizes the development, physical implementations, and operational techniques of three-electron spin qubits, with a focus on the resonant exchange and exchange-only types, highlighting their potential for scalable quantum computing.

Contribution

It provides a comprehensive overview of three-electron spin qubits, detailing models, realizations, operations, and decoherence, with emphasis on the resonant exchange qubit's advantages.

Findings

Resonant exchange qubit enables microwave-driven single-qubit operations.

Two-qubit gates can be short-ranged or long-ranged, essential for scalability.

Decoherence from magnetic and charge noise impacts qubit performance.

Abstract

The goal of this article is to review the progress of three-electron spin qubits from their inception to the state of the art. We direct the main focus towards the resonant exchange (RX) qubit and the exchange-only qubit, but we also discuss other qubit implementations using three electron spins. For each three-spin qubit we describe the qubit model, the physical realization, the implementations of single-qubit operations, as well as the read-out and initialization schemes. Two-qubit gates and decoherence properties are discussed for the RX qubit and the exchange-only qubit, thereby, completing the list of requirements for a viable candidate qubit implementation for quantum computation. We start with describing the full system of three electrons in a triple quantum dot, then discuss the charge-stability diagram and restrict ourselves to the relevant subsystem, introduce the qubit states, and discuss important transitions to other charge states. Introducing the various qubit implementations, we begin with the exchange-only qubit, followed by the spin-charge qubit, the hybrid qubit, and the RX qubit, discussing for each the single-qubit operations, read-out, and initialization methods, whereas the main focus will be on the RX qubit, whose single-qubit operations are realized by driving the qubit at its resonant frequency in the microwave range similar to electron spin resonance. Two different types of two-qubit operations are presented for the exchange-only and the RX qubit which can be divided into short-ranged and long-ranged interactions. Both of these interaction types can be expected to be necessary in a large-scale quantum computer. We also take into account the decoherence of the qubit through the influence of magnetic noise as well as dephasing due to charge noise.