Glauber coherence of single electron sources

TL;DR

This paper analyzes the coherence properties of solid state single electron sources by calculating the Glauber correlation function using Floquet scattering theory, crucial for quantum multi-particle state production.

Contribution

It introduces a method to determine the Glauber correlation function for adiabatic and non-adiabatic sources based on their Floquet scattering matrix.

Findings

Glauber correlation functions characterize the quantum states generated.

The approach reveals detailed information on state shape, amplitude, and phase.

Coherence properties are essential for quantum multi-particle applications.

Abstract

Recently demonstrated solid state single electron sources generate different quantum states depending on their operation condition. For adiabatic and non-adiabatic sources we determine the Glauber correlation function in terms of the Floquet scattering matrix of the source. The correlation function provides full information on the shape of the state, on its time-dependent amplitude and phase, which makes the coherence properties of single electron states essential for the production of quantum multi-particle states.