Ilaria Siloi scite author profile

We investigate the dynamics of continuous-time two-particle quantum walks on a one-dimensional noisy lattice. Depending on the initial condition, we show how the interplay between particle indistinguishability and interaction determines distinct propagation regimes. A realistic model for the environment is considered by introducing non-Gaussian noise as time-dependent fluctuations of the tunneling amplitudes between adjacent sites. We observe that the combined effect of particle interaction and fast noise (weak coupling with the environment) provides a faster propagation compared to the noiseless case. This effect can be understood in terms of the band structure of the Hubbard model, and a detailed analysis as a function of both noise and system parameters is presented

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Advanced modeling of materials with PAOFLOW 2.0: New features and software design

Cerasoli

Supka

Jayaraj

et al. 2021

Computational Materials Science

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Energy as a witness of multipartite entanglement in chains of arbitrary spins

Troiani

Siloi

2012

Phys. Rev. A

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Towards the chemical tuning of entanglement in molecular nanomagnets

Siloi

Troiani

2012

Phys. Rev. B

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Antiferromagnetic spin rings represent prototypical realizations of highly correlated, low-dimensional systems. Here we theoretically show how the introduction of magnetic defects by controlled chemical substitutions results in a strong spatial modulation of spin-pair entanglement within each ring. Entanglement between local degrees of freedom (individual spins) and collective ones (total ring spins) are shown to coexist in exchange-coupled ring dimers, as can be deduced from general symmetry arguments. We verify the persistence of these features at finite temperatures, and discuss them in terms of experimentally accessible observables.Comment: 5 pages, 4 figure

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Ilaria Siloi

Noisy quantum walks of two indistinguishable interacting particles

Advanced modeling of materials with PAOFLOW 2.0: New features and software design

Energy as a witness of multipartite entanglement in chains of arbitrary spins

Towards the chemical tuning of entanglement in molecular nanomagnets

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