Related papers: All three-angle variants of Tsirelson's precession protocol, and improved bounds for wedge integrals of Wigner functions

All three-angle variants of Tsirelson's precession protocol, and improved bounds for wedge integrals of Wigner functions

URL: http://arxiv.org/abs/2411.03132v1
Date: Tue, 05 Nov 2024 14:24:34 GMT
Title: All three-angle variants of Tsirelson's precession protocol, and improved bounds for wedge integrals of Wigner functions
Authors: Lin Htoo Zaw, Valerio Scarani,
Abstract summary: Tsirelson's precession protocol is a nonclassicality witness that can be defined for both discrete and continuous variable systems. This work broadens the scope of Tsirelson's original protocol, making it capable to detect the nonclassicality and entanglement of many more states.
Score: 0.0
License:
Abstract: Tsirelson's precession protocol is a nonclassicality witness that can be defined for both discrete and continuous variable systems. Its original version involves measuring a precessing observable, like the quadrature of a harmonic oscillator or a component of angular momentum, along three equally-spaced angles. In this work, we characterise all three-angle variants of this protocol. For continuous variables, we show that the maximum score $\mathbf{P}_3^\infty$ achievable by the quantum harmonic oscillator is the same for all such generalised protocols. We also derive markedly tighter bounds for $\mathbf{P}_3^\infty$, both rigorous and conjectured, which translate into improved bounds on the amount of negativity a Wigner function may have in certain wedge-shaped regions of phase space. For discrete variables, we show that changing the angles significantly improves the score for most spin systems. Like the original protocol, these generalised variants can detect non-Gaussian and multipartite entanglement when applied on composite systems. Overall, this work broadens the scope of Tsirelson's original protocol, making it capable to detect the nonclassicality and entanglement of many more states.

Related papers

KPZ scaling from the Krylov space [83.88591755871734]
Recently, a superdiffusion exhibiting the Kardar-Parisi-Zhang scaling in late-time correlators and autocorrelators has been reported. Inspired by these results, we explore the KPZ scaling in correlation functions using their realization in the Krylov operator basis.
arXiv Detail & Related papers (2024-06-04T20:57:59Z)
An even-parity precession protocol for detecting nonclassicality and entanglement [0.0]
We introduce an even-parity precession protocol that can detect nonclassicality of some quantum states. Unlike other nonclassicality tests, simultaneous or sequential measurements are not required. This work also closes a long-standing gap by showing the possibility of detecting the Greenberger--Horne--Zeilinger entanglement of an even number of qubits.
arXiv Detail & Related papers (2024-05-28T08:52:55Z)
Enhancing a Many-body Dipolar Rydberg Tweezer Array with Arbitrary Local Controls [2.1759090763941034]
We implement and characterize a protocol that enables arbitrary local controls in a dipolar atom array. Our approach relies on a combination of local addressing beams and global microwave fields.
arXiv Detail & Related papers (2024-02-16T20:11:34Z)
Control landscape of measurement-assisted transition probability for a three-level quantum system with dynamical symmetry [77.34726150561087]
Quantum systems with dynamical symmetries have conserved quantities which are preserved under coherent controls. Incoherent control can increase the maximal attainable transition probability. We show that all critical points are global maxima, global minima, saddle points and second order traps.
arXiv Detail & Related papers (2023-07-14T16:12:21Z)
Interconversion of $W$ and Greenberger-Horne-Zeilinger states for Ising-coupled qubits with transverse global control [0.0]
Interconversions of $W$ and Greenberger-Horne-Zeilinger states in various physical systems are attracting considerable attention. We address this problem in the fairly general physical setting of qubit arrays with long-ranged (all-to-all) Ising-type qubit-qubit interaction. Motivated in part by a recent Lie-algebraic result that implies state-to-state controllability, we present a detailed investigation of the state-interconversion problem in the three-qubit case.
arXiv Detail & Related papers (2022-07-28T17:20:25Z)
Non-Gaussian superradiant transition via three-body ultrastrong coupling [62.997667081978825]
We introduce a class of quantum optical Hamiltonian characterized by three-body couplings. We propose a circuit-QED scheme based on state-of-the-art technology that implements the considered model.
arXiv Detail & Related papers (2022-04-07T15:39:21Z)
Reachable sets for two-level open quantum systems driven by coherent and incoherent controls [77.34726150561087]
We study controllability in the set of all density matrices for a two-level open quantum system driven by coherent and incoherent controls. For two coherent controls, the system is shown to be completely controllable in the set of all density matrices.
arXiv Detail & Related papers (2021-09-09T16:14:23Z)
Asymptotic optimality of twist-untwist protocols for Heisenberg scaling in atomic interferometry [0.0]
We prove that twist-untwist protocols provide the lowest estimation error among quantum metrology protocols. We consider all-to-all interactions generated by one-axis twisting. We show that the error of a twist-untwist protocol can be decreased by a factor of $L$ without an increase in the noise of spin measurement.
arXiv Detail & Related papers (2021-04-13T22:29:26Z)
Exact thermal properties of free-fermionic spin chains [68.8204255655161]
We focus on spin chain models that admit a description in terms of free fermions. Errors stemming from the ubiquitous approximation are identified in the neighborhood of the critical point at low temperatures.
arXiv Detail & Related papers (2021-03-30T13:15:44Z)
Topological and geometric patterns in optimal bang-bang protocols for variational quantum algorithms: application to the $XXZ$ model on the square lattice [0.0]
We find optimal protocols for transformations between the ground states of the square-lattice XXZ model for finite systems sizes. We identify the minimum time needed for reaching an acceptable error for different system sizes. We find that protocols within one phase are indeed geometrically correlated.
arXiv Detail & Related papers (2020-12-10T06:45:25Z)
Gaussian conversion protocols for cubic phase state generation [104.23865519192793]
Universal quantum computing with continuous variables requires non-Gaussian resources. The cubic phase state is a non-Gaussian state whose experimental implementation has so far remained elusive. We introduce two protocols that allow for the conversion of a non-Gaussian state to a cubic phase state.
arXiv Detail & Related papers (2020-07-07T09:19:49Z)

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