Related papers: Experimental device-independent certification of indefinite causal order

Experimental device-independent certification of indefinite causal order

URL: http://arxiv.org/abs/2508.04643v1
Date: Wed, 06 Aug 2025 17:07:59 GMT
Title: Experimental device-independent certification of indefinite causal order
Authors: Dengke Qu, Quan Lin, Lei Xiao, Xiang Zhan, Peng Xue,
Abstract summary: We report an experimental verification of the causal inequality using spacelike-separated entangled photons.<n>Our results pave the way toward a complete understanding of indefinite causal order and its potential applications in quantum information processing.
Score: 9.01526727292497
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Understanding the physical world fundamentally relies on the assumption that events are temporally ordered, with past events serving as causes for future ones. However, quantum mechanics permits events to occur in a superposition of causal orders, providing new types of quantum resources for quantum information tasks. Previous demonstrations of indefinite causal order have relied on a process known as quantum switch and depended on specific assumptions about the devices used in the laboratory. Recently, a theoretical scheme for the certification of indefinite causal order in the quantum switch has been obtained solely from the output statistics of the devices, analogous to the device-independent proofs of nonlocality through violations of the Bell inequality. Here, we report an experimental verification of the causal inequality using spacelike-separated entangled photons, where one photon functions as the control qubit in a quantum switch and the other serves as an additional observer. Through local measurement statistics, we observe a violation of the causal inequality by 24 standard deviations. This work provides evidence for a device-independent certification of indefinite causal order, relying solely on observed correlations without requiring device characterization. Our results pave the way toward a complete understanding of indefinite causal order and its potential applications in quantum information processing.

Related papers

Experimental violation of a Bell-like inequality for causal order [7.0149746383755325]
Indefinite causal order provides a resource for quantum information processing.<n>We report the experimental violation of a Bell-like inequality for causal order using a photonic setup.
arXiv Detail & Related papers (2025-06-25T15:04:13Z)
Towards an Experimental Device-Independent Verification of Indefinite Causal Order [0.0]
We present the first implementation of a device-independent protocol to verify indefinite causal order.<n>This represents an important step towards the device-independent verification of an indefinite causal order.
arXiv Detail & Related papers (2025-06-20T12:32:08Z)
Realizing fracton order from long-range quantum entanglement in programmable Rydberg atom arrays [45.19832622389592]
Storing quantum information requires battling quantum decoherence, which results in a loss of information over time. To achieve error-resistant quantum memory, one would like to store the information in a quantum superposition of degenerate states engineered in such a way that local sources of noise cannot change one state into another. We show that this platform also allows to detect and correct certain types of errors en route to the goal of true error-resistant quantum memory.
arXiv Detail & Related papers (2024-07-08T12:46:08Z)
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)
Device-independent certification of indefinite causal order in the quantum switch [0.6445605125467572]
Quantum theory is compatible with scenarios in which the order of operations is indefinite. We present an inequality that can be used to device-independently certify indefinite causal order in the quantum switch.
arXiv Detail & Related papers (2022-08-01T10:06:49Z)
Semi-device-independent certification of indefinite causal order in a photonic quantum switch [4.058090592851957]
In a semi-device-independent scenario, indefinite causal order can be demonstrated with the quantum switch. We show that correlations generated in a photonic quantum switch, in which all parties are able to collect local outcome statistics, achieve a violation of this inequality of 224 standard deviations.
arXiv Detail & Related papers (2022-02-10T22:02:24Z)
Interactive Protocols for Classically-Verifiable Quantum Advantage [46.093185827838035]
"Interactions" between a prover and a verifier can bridge the gap between verifiability and implementation. We demonstrate the first implementation of an interactive quantum advantage protocol, using an ion trap quantum computer.
arXiv Detail & Related papers (2021-12-09T19:00:00Z)
Characterizing quantum instruments: from non-demolition measurements to quantum error correction [48.43720700248091]
In quantum information processing quantum operations are often processed alongside measurements which result in classical data. Non-unitary dynamical processes can take place on the system, for which common quantum channel descriptions fail to describe the time evolution. Quantum measurements are correctly treated by means of so-called quantum instruments capturing both classical outputs and post-measurement quantum states.
arXiv Detail & Related papers (2021-10-13T18:00:13Z)
Experimental violations of Leggett-Garg's inequalities on a quantum computer [77.34726150561087]
We experimentally observe the violations of Leggett-Garg-Bell's inequalities on single and multi-qubit systems. Our analysis highlights the limits of nowadays quantum platforms, showing that the above-mentioned correlation functions deviate from theoretical prediction as the number of qubits and the depth of the circuit grow.
arXiv Detail & Related papers (2021-09-06T14:35:15Z)
Semi-Device-Independent Certification of Causal Nonseparability with Trusted Quantum Inputs [0.0]
Remarkably, some processes, termed causally nonseparable, are incompatible with a definite causal order. We explore a form of certification of causal nonseparability in a semi-device-independent scenario. We show that certain causally nonseparable processes which cannot violate any causal inequality, including the canonical example of the quantum switch, can generate noncausal correlations.
arXiv Detail & Related papers (2021-07-22T18:14:04Z)
Quantum Mechanical description of Bell's experiment assumes Locality [91.3755431537592]
Bell's experiment description assumes the (Quantum Mechanics-language equivalent of the classical) condition of Locality. This result is complementary to a recently published one demonstrating that non-Locality is necessary to describe said experiment. It is concluded that, within the framework of Quantum Mechanics, there is absolutely no reason to believe in the existence of non-Local effects.
arXiv Detail & Related papers (2020-02-27T15:04:08Z)
Using Randomness to decide among Locality, Realism and Ergodicity [91.3755431537592]
An experiment is proposed to find out, or at least to get an indication about, which one is false. The results of such experiment would be important not only to the foundations of Quantum Mechanics.
arXiv Detail & Related papers (2020-01-06T19:26:32Z)

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