Entanglement from density measurements: analytical density-functional for the entanglement of strongly correlated fermions

We derive an analytical density functional for the single-site entanglement of the one-dimensional homogeneous Hubbard model, by means of an approximation to the linear entropy. We show that this very simple density functional reproduces quantitatively the exact results. We then use this functional as input for a local density approximation to the single-site entanglement of inhomogeneous systems. We illustrate the power of this approach in a harmonically confined system, which could simulate recent experiments with ultracold atoms in optical lattices as well as in a superlattice and in an impurity system. The impressive quantitative agreement with numerical calculations -- which includes reproducing subtle signatures of the particle density stages -- shows that our density-functional can provide entanglement calculations for actual experiments via density measurements. Next we use our functional to calculate the entanglement in disordered systems. We find that, at contrast with the expectation that disorder destroys the entanglement, there exist regimes for which the entanglement remains almost unaffected by the presence of disordered impurities.Comment: 6 pages, 3 figure

Simple parametrization for the ground-state energy of the infinite Hubbard chain incorporating Mott physics, spin-dependent phenomena and spatial inhomogeneity

Simple analytical parametrizations for the ground-state energy of the one-dimensional repulsive Hubbard model are developed. The charge-dependence of the energy is parametrized using exact results extracted from the Bethe-Ansatz. The resulting parametrization is shown to be in better agreement with highly precise data obtained from fully numerical solution of the Bethe-Ansatz equations than previous expressions [Lima et al., Phys. Rev. Lett. 90, 146402 (2003)]. Unlike these earlier proposals, the present parametrization correctly predicts a positive Mott gap at half filling for any U>0. The construction is extended to spin-dependent phenomena by parametrizing the magnetization-dependence of the ground-state energy using further exact results and numerical benchmarking. Lastly, the parametrizations developed for the spatially uniform model are extended by means of a simple local-density-type approximation to spatially inhomogeneous models, e.g., in the presence of impurities, external fields or trapping potentials. Results are shown to be in excellent agreement with independent many-body calculations, at a fraction of the computational cost.Comment: New Journal of Physics, accepte

Effect of spatial inhomogeneity on the mapping between strongly interacting fermions and weakly interacting spins

A combined analytical and numerical study is performed of the mapping between strongly interacting fermions and weakly interacting spins, in the framework of the Hubbard, t-J and Heisenberg models. While for spatially homogeneous models in the thermodynamic limit the mapping is thoroughly understood, we here focus on aspects that become relevant in spatially inhomogeneous situations, such as the effect of boundaries, impurities, superlattices and interfaces. We consider parameter regimes that are relevant for traditional applications of these models, such as electrons in cuprates and manganites, and for more recent applications to atoms in optical lattices. The rate of the mapping as a function of the interaction strength is determined from the Bethe-Ansatz for infinite systems and from numerical diagonalization for finite systems. We show analytically that if translational symmetry is broken through the presence of impurities, the mapping persists and is, in a certain sense, as local as possible, provided the spin-spin interaction between two sites of the Heisenberg model is calculated from the harmonic mean of the onsite Coulomb interaction on adjacent sites of the Hubbard model. Numerical calculations corroborate these findings also in interfaces and superlattices, where analytical calculations are more complicated.Comment: 7 pages, 6 figure

Work statistics and Entanglement across the fermionic superfluid-insulator transition

Entanglement in many-body systems may display interesting signatures of quantum phase transitions and similar properties are starting to be encountered in the analysis of work fluctuations. Here, we consider the fermionic superfluid-to-insulator transition (SIT) and relate its entanglement properties with its work distribution statistics. The SIT is modeled by the attractive fermionic Hubbard model in the presence of randomly distributed impurities. The work distribution is calculated across two quench protocols, both triggering the SIT. In the first, the concentration of impurities is increased; in the second, the impurities' disorder strength is varied. Our results indicate that, the critical state that induces minimization of the entanglement also maximizes the average work. We demonstrate that, for this state, density fluctuations vanish at all orders, hence all central moments of the work probability distribution are exactly zero at criticality. For systems undergoing a precursor to the transition (short chains with finite impurity potential) numerical results confirm these predictions, with higher moments further from the ideal result. For both protocols, at criticality, the system absorbs the most energy with almost no penalty in terms of fluctuations: ultimately this feature could be used to implement a quantum critical battery. The effects of temperature on these signatures of critical behaviour are also investigated and shown to favor work extraction for high enough temperatures

Work Statistics and Entanglement Across the Fermionic Superfluid-Insulator Transition

Entanglement in many-body systems may display quantum phase transition signatures, and analogous insights are emerging in the study of work fluctuations. Here, the fermionic superfluid-to-insulator transition (SIT) is considered and related to its entanglement properties and its work distribution statistics. Using the attractive fermionic Hubbard model with randomly distributed impurities, the work distribution is analyzed under two quench protocols triggering the SIT. In the first, the concentration of impurities is increased; in the second, the impurities' disorder strength is varied. The results indicate that, at criticality, the entanglement is minimized while the average work is maximized. This study demonstrates that, for this state, density fluctuations vanish at all orders, resulting in all central moments of the work probability distribution being precisely zero. For systems undergoing a precursor to the transition (short chains with finite impurity potential) numerical results confirm these predictions, with higher moments further from the ideal results. For both protocols, at criticality, the system absorbs the most energy with almost no penalty in terms of fluctuations: ultimately this feature can be used to implement a quantum critical battery. The impact of temperature on this critical behaviour is also investigated and shown to favor work extraction for high enough temperatures

Aborto em bovinos devido à intoxicação por Tetrapterys acutifolia (Malpighiaceae)

Esse estudo teve por objetivo demonstrar experimentalmente que Tetrapterys acutifolia Cav. (fam. Malpighiaceae) é capaz de provocar aborto em bovinos e caracterizar as alterações clínico-patológicas nas vacas e nos fetos. Estas plantas são responsáveis por significativo número de mortes em bovinos com mais de um ano de idade, especialmente nos Estados de Rio de Janeiro e São Paulo, mas até agora não havia sido comprovado experimentalmente seu efeito abortivo em bovinos. Os experimentos foram realizados no município de Barra do Piraí, RJ. Quatro vacas de descarte receberam brotos e folhas novas frescas de T. acutifolia, coletadas em propriedades vizinhas, nas doses de 2,5g/kg/dia, 5,0g/kg/dia (2 vacas) e 10g/kg/dia, até ocorrer o abortamento. O quadro clínico nas vacas caracterizou-se por arritmia cardíaca, tremores musculares, anorexia, ascite, jugular ingurgitada, edema de peito e barbela e aborto (23-76 dias após o início da ingestão da planta); todas as vacas abortaram. Das quatro vacas apenas uma (a que recebeu 10g/kg/dia) morreu 36 dias após o abortamento, com sintomas de insuficiência cardíaca. O exame necroscópico dos fetos/natimortos revelou hidrotórax, hidropericárdio, hidroperitônio e congestão hepática; ao corte do miocárdio, verificaram-se áreas pálidas. No exame histológico havia edema intersticial com fibrose incipiente. Na vaca que recebeu a maior dose e foi a óbito, bem como em outra intoxicada naturalmente, os achados de necropsia foram similares aos observados nos fetos, exceto pela dilatação dos vasos da base do coração e mais acentuada palidez do miocárdio. Observaram-se ainda edema subcutâneo nas regiões cervical e esternal, bem como veias jugulares ingurgitadas. Os achados histopatológicos foram necrose e edema intersticial com acentuada fibrose no miocárdio, espongiose da substância branca do encéfalo e, no fígado, congestão e leve fibrose. Adicionalmente, observou-se na vaca intoxicada espontaneamente, 17 dias após o aborto, arritmia cardíaca, jugular ingurgitada, edema de peito e barbela, anorexia com morte 43 dias após o aborto. Este estudo demonstra que Tetrapterys acutifolia é capaz de induzir aborto e, dependendo da dose, ainda causar a morte das vacas que abortarem