# Nonlocality, quantum correlations, and violations of classical realism   in the dynamics of two noninteracting quantum walkers

**Authors:** Alexandre C. Orthey Jr., R. M. Angelo

arXiv: 1905.09270 · 2019-10-23

## TL;DR

This paper investigates how quantum correlations, including entanglement and nonlocality, evolve over time in a system of two noninteracting quantum walkers, revealing that certain nonclassical features vanish while realism-based nonlocality persists.

## Contribution

Introduces a simplified Gaussian model to analytically study the dynamics of quantum correlations in two noninteracting quantum walkers, addressing computational challenges.

## Key findings

- Genuine fourpartite entanglement increases over time.
- Most nonclassical features vanish over time, except realism-based nonlocality.
- Realism is prevented at all finite times.

## Abstract

That quantum correlations can be generated over time between the spin and the position of a quantum walker is indisputable. The creation of bipartite entanglement has also been reported for two-walker systems. In this scenario, however, since the global state lies in a fourpartite Hilbert space, the question arises as to whether genuine multipartite entanglement may develop in time. Also, since the spatial degrees of freedom can be viewed as a noisy channel for the two-spin part, one may wonder how other nonclassical aspects, such as Bell nonlocality, Einstein-Podolsky-Rosen steering, quantum discord, and symmetrical quantum discord, evolve in time during the walk. The lack of analytical and numerical evidences which would allow one to address these questions is possibly due to the usual computational difficulties associated with the recursive nature of quantum walks. Here, we work around this issue by introducing a simplified Gaussian model which proves to be very accurate within a given domain and powerful for analytical studies. Then, for an instance involving two noninteracting quantum walkers, whose spins start in the singlet state, we quantify the aforementioned nonclassical features as a function of time, and evaluate violations of both realism and related aspects of locality. In addition, we analyze situations in which the initial two-spin state is affected by white noise. The typical scenario found is such that while genuine fourpartite entanglement increases over time, all the investigated nonclassical features vanish (suddenly or asymptotically) except realism-based nonlocality. Moreover, realism is prevented for all finite times. Our findings open perspectives for the understanding of the dynamics of quantum resources in quantum walks.

## Full text

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## Figures

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## References

62 references — full list in the complete paper: https://tomesphere.com/paper/1905.09270/full.md

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