Reconstruction of electromagnetic field states by a probe qubit

TL;DR

This paper introduces a method to reconstruct the quantum state of a single electromagnetic field mode using a probe qubit, enabling full or partial state determination through Fourier analysis of qubit polarization measurements.

Contribution

The paper presents a novel technique for quantum state reconstruction of electromagnetic fields via qubit interactions, applicable to both pure and mixed states.

Findings

Successfully reconstructs pure states of the field.

Provides partial information for mixed states.

Demonstrates method with examples including Fock, coherent, and Casimir states.

Abstract

We propose a method to measure the quantum state of a single mode of the electromagnetic field. The method is based on the interaction of the field with a probe qubit. The qubit polarizations along coordinate axes are functions of the interaction time and from their Fourier transform we can in general fully reconstruct pure states of the field and obtain partial information in the case of mixed states. The method is illustrated by several examples, including the superposition of Fock states, coherent states, and exotic states generated by the dynamical Casimir effect.