English

Knowledge by Direct Measurement versus Inference from Steering

Quantum Physics 2020-05-22 v1

Abstract

If Alice and Bob start out with an entangled state ΨAB|\Psi_{AB}\rangle, Bob may update his state to φB|\varphi_B\rangle either by performing a suitable measurement himself, or by receiving the information that a measurement by Alice has steered that state. While Bob's update on his state is identical, his update on Alice's state differs: if Bob has performed the measurement, he has steered the state χ(φ)A|\chi_{\leftarrow}(\varphi)\rangle_A of Alice; if Alice has made the measurement, to steer φB|\varphi\rangle_B on Bob she must have found a different state χ(φ)A|\chi_{\rightarrow}(\varphi)\rangle_A. Based on this observation, a consequence of the well-known `Hardy's ladder', we show that information from direct measurement must trump inference from steering. The erroneous belief that both paths should lead to identical conclusions can be traced to the usual prejudice that measurements should reveal a pre-existing state of affairs. We also prove a technical result on Hardy's ladder: the minimum overlap between the steered and the steering state is 2p0pn1/(p0+pn1)2\sqrt{p_{0}p_{n-1}}/(p_0+p_{n-1}), where p0p_0 and pn1p_{n-1} are the smallest (non-zero) and the largest Schmidt coefficients of ΨAB|\Psi\rangle_{AB}.

Cite

@article{arxiv.1904.07529,
  title  = {Knowledge by Direct Measurement versus Inference from Steering},
  author = {Clive Aw and Michele Dall'Arno and Valerio Scarani},
  journal= {arXiv preprint arXiv:1904.07529},
  year   = {2020}
}

Comments

Yes, it's also about it, but we don't cite it in the abstract

R2 v1 2026-06-23T08:40:59.608Z