Purification of a single photon nonlinearity

TL;DR

This paper demonstrates a method to restore the fidelity of a semiconductor quantum dot-cavity single photon nonlinearity using polarization pre- and postselection, significantly enhancing photon correlation and potential quantum computing applications.

Contribution

The authors introduce a polarization-based purification technique that improves the nonlinearity fidelity in quantum dot-cavity systems within the weak coupling regime.

Findings

Achieved a second-order correlation function g2(0)~40, surpassing previous results.

Enabled transformation of coherent light into strongly correlated photons.

Potentially improved quantum dot-based quantum logic gate fidelity.

Abstract

We show that the lifetime-reduced fidelity of a semiconductor quantum dot-cavity single photon nonlinearity can be restored by polarization pre- and postselection. This is realized with a polarization degenerate microcavity in the weak coupling regime, where an output polarizer enables quantum interference of the two orthogonally polarized transmission amplitudes. This allows us to transform incident coherent light into a stream of strongly correlated photons with a second-order correlation function of g2(0)~40, larger than previous experimental results even in the strong-coupling regime. This purification technique might also be useful to improve the fidelity of quantum dot based logic gates.