Litcius/Paper detail

Quantum computing using floating electrons on cryogenic substrates: Potential and challenges

A. Jennings, Xianjing Zhou, Ivan Grytsenko, Erika Kawakami

2024Applied Physics Letters15 citationsDOI

Abstract

In this review, we introduce a developing qubit platform: floating-electron-based qubits. Electrons floating in a vacuum above the surface of liquid helium or solid neon emerge as promising candidates for qubits, especially due to their expected long coherence times. Despite being in the early stages, a variety of recent experiments from different groups have shown substantial potential in this role. We survey a range of theoretical proposals and recent experiments, primarily focusing on the use of the spin state as the qubit state, wherein the spin and charge states are hybridized. Throughout these proposals and experiments, the charge state is coupled to an LC resonator, which facilitates both the control and readout mechanisms for the spin state via an artificially introduced spin–charge coupling.

Topics & Concepts

QubitCoherence (philosophical gambling strategy)ElectronPhysicsCharge (physics)Spin (aerodynamics)Charge qubitNeonPhase qubitAtomic physicsQuantumNanotechnologyQuantum mechanicsMaterials scienceArgonThermodynamicsQuantum and electron transport phenomenaQuantum Information and CryptographyPhysics of Superconductivity and Magnetism