Related papers: Sharing Quantum Steering via Standard Projective Measurements

Sharing Quantum Steering via Standard Projective Measurements

URL: http://arxiv.org/abs/2405.08588v1
Date: Tue, 14 May 2024 13:25:04 GMT
Title: Sharing Quantum Steering via Standard Projective Measurements
Authors: Shufen Dong, Zinuo Cai, Chunfeng Wu, Changliang Ren,
Abstract summary: We show that Alice can steer Bob's and Charlie's states and conversely, Bob and Charlie can steer Alice's state. Quantum steering is demonstrated by the violations of the linear steering inequality among different observer combinations. Our results provide a new perspective for the study of quantum steering and may lead to applications in quantum random access code, randomness certification, and self-testing process.
Score: 4.282795945742752
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We propose a scheme for the sharing of quantum steering among three observers, Alice, Bob, and Charlie using standard projective measurements. We show that in the unilateral sequential scenario, Alice can steer Bob's and Charlie's states and conversely, Bob and Charlie can steer Alice's state. Unlike the quantum steering sharing achieved through weak measurements, we use the standard projective measurements to enable quantum steering sharing. Quantum steering is demonstrated by the violations of the linear steering inequality among different observer combinations. We find that Alice can simultaneously steer both Bob's and Charlie's states, and Bob and Charlie can simultaneously steer Alice's state, regardless of whether they are in maximally entangled states or partially entangled states. The maximum double violation of the linear steering inequalities obtained from partially entangled states can be greater in some cases than that obtained from maximally entangled states when randomly combining the case of two projective measurements and the case of two identity measurements. Additionally, we verify hybrid quantum correlation sharing through the double violation of the Clauser-Horne-Shimony-Holt (CHSH) inequality and the linear steering inequality. Our results provide a new perspective for the study of quantum steering and may lead to applications in quantum random access code, randomness certification, and self-testing process.

Related papers

A computational test of quantum contextuality, and even simpler proofs of quantumness [43.25018099464869]
We show that an arbitrary contextuality game can be compiled into an operational "test of contextuality" involving a single quantum device. Our work can be seen as using cryptography to enforce spatial separation within subsystems of a single quantum device.
arXiv Detail & Related papers (2024-05-10T19:30:23Z)
Quantum advantage in a unified scenario and secure detection of resources [55.2480439325792]
We consider a single task to study different approaches of having quantum advantage. We show that the optimal success probability in the overall process for a qubit communication might be higher than that for a cbit communication.
arXiv Detail & Related papers (2023-09-22T23:06:20Z)
Bidirectional quantum teleportation of even and odd coherent states through the multipartite Glauber coherent state: Theory and implementation [0.0]
We present a quantum teleportation protocol that enables even and odd coherent states to be transmitted and reconstructed over arbitrary distances. We use the multipartite Glauber coherent state as a quantum resource linking distant partners Alice and Bob. We show that the choice of the pre-shared quantum channel has a critical role in achieving high BQT efficiency.
arXiv Detail & Related papers (2023-06-01T09:55:21Z)
A vertical gate-defined double quantum dot in a strained germanium double quantum well [48.7576911714538]
Gate-defined quantum dots in silicon-germanium heterostructures have become a compelling platform for quantum computation and simulation. We demonstrate the operation of a gate-defined vertical double quantum dot in a strained germanium double quantum well. We discuss challenges and opportunities and outline potential applications in quantum computing and quantum simulation.
arXiv Detail & Related papers (2023-05-23T13:42:36Z)
Discriminating mixed qubit states with collective measurements [0.2621730497733947]
We propose and experimentally demonstrate a protocol for distinguishing two copies of single qubit states using collective measurements. We implement our measurements on an IBM Q System One device, a superconducting quantum processor.
arXiv Detail & Related papers (2023-02-17T14:02:26Z)
Experimental demonstration of optimal unambiguous two-out-of-four quantum state elimination [52.77024349608834]
A core principle of quantum theory is that non-orthogonal quantum states cannot be perfectly distinguished with single-shot measurements. Here we implement a quantum state elimination measurement which unambiguously rules out two of four pure, non-orthogonal quantum states.
arXiv Detail & Related papers (2022-06-30T18:00:01Z)
Efficient Bipartite Entanglement Detection Scheme with a Quantum Adversarial Solver [89.80359585967642]
Proposal reformulates the bipartite entanglement detection as a two-player zero-sum game completed by parameterized quantum circuits. We experimentally implement our protocol on a linear optical network and exhibit its effectiveness to accomplish the bipartite entanglement detection for 5-qubit quantum pure states and 2-qubit quantum mixed states.
arXiv Detail & Related papers (2022-03-15T09:46:45Z)
Limits on sequential sharing of nonlocal advantage of quantum coherence [13.46516066673]
We show how many observers can share the nonlocal advantage of quantum coherence (NAQC) in a $(dtimes d)$-dimensional state. Results may shed light on the interplay between nonlocal correlations and quantum measurements on high-dimensional systems.
arXiv Detail & Related papers (2022-01-31T07:08:13Z)
Sharing quantum steering among multiple Alices and Bobs via a two-qubit Werner state [2.3890645343686354]
We consider a new quantum steering scenario in which one half of a two-qubit Werner state is sequentially measured by multiple Alices and the other half by multiple Bobs. We find that the maximum number of Alices who can share steering with a single Bob increases from 2 to 5 when the number of measurement settings $N$ increases from 2 to 16. Our work gives insights into the diversity of steering sharing and can be extended to study the problems such as genuine multipartite quantum steering.
arXiv Detail & Related papers (2021-10-08T02:19:22Z)
Einstein-Podolsky-Rosen Steering in Two-sided Sequential Measurements with One Entangled Pair [5.180965147147337]
Non-locality and quantum measurement are two fundamental topics in quantum theory. Non-locality sharing among multiple observers is predicted and experimentally observed. Double EPR steering can be demonstrated simultaneously while double Bell-CHSH inequalityviolations are shown to be impossible.
arXiv Detail & Related papers (2021-02-04T11:32:14Z)
Secure Two-Party Quantum Computation Over Classical Channels [63.97763079214294]
We consider the setting where the two parties (a classical Alice and a quantum Bob) can communicate only via a classical channel. We show that it is in general impossible to realize a two-party quantum functionality with black-box simulation in the case of malicious quantum adversaries. We provide a compiler that takes as input a classical proof of quantum knowledge (PoQK) protocol for a QMA relation R and outputs a zero-knowledge PoQK for R that can be verified by classical parties.
arXiv Detail & Related papers (2020-10-15T17:55:31Z)

This list is automatically generated from the titles and abstracts of the papers in this site.