Entanglement witnessing and quantum cryptography with non-ideal ferromagnetic detectors

Abstract

We investigate theoretically the use of non-ideal ferromagnetic contacts as a mean to detect quantum entanglement of electron spins in transport experiments. We use a designated entanglement witness and find a minimal spin polarization of η > 1/3 ≈ 58 % required to demonstrate spin entanglement. This is significantly less stringent than the ubiquitous tests of Bell's inequality with η > 1/[4]2≈ 84%. In addition, we discuss the impact of decoherence and noise on entanglement detection and apply the presented framework to a simple quantum cryptography protocol. Our results are directly applicable to a large variety of experiments.