Your search keyword '"Cristhiano Duarte"' showing total 22 results

1. Events in quantum mechanics are maximally non-absolute

Author

George Moreno, Ranieri Nery, Cristhiano Duarte, and Rafael Chaves

Subjects

Physics, QC1-999

Abstract

The notorious quantum measurement problem brings out the difficulty to reconcile two quantum postulates: the unitary evolution of closed quantum systems and the wave-function collapse after a measurement. This problematics is particularly highlighted in the Wigner's friend thought experiment, where the mismatch between unitary evolution and measurement collapse leads to conflicting quantum descriptions for different observers. A recent no-go theorem has established that the (quantum) statistics arising from an extended Wigner's friend scenario is incompatible when one try to hold together three innocuous assumptions, namely no-superdeterminism, parameter independence and absoluteness of observed events. Building on this extended scenario, we introduce two novel measures of non-absoluteness of events. The first is based on the EPR2 decomposition, and the second involves the relaxation of the absoluteness hypothesis assumed in the aforementioned no-go theorem. To prove that quantum correlations can be maximally non-absolute according to both quantifiers, we show that chained Bell inequalities (and relaxations thereof) are also valid constraints for Wigner's experiment.

Published

2022

2. Emergence of Noncontextuality under Quantum Darwinism

Author

Roberto D. Baldijão, Rafael Wagner, Cristhiano Duarte, Bárbara Amaral, and Marcelo Terra Cunha

Subjects

Physics, QC1-999, Computer software, QA76.75-76.765

Abstract

Quantum Darwinism proposes that the proliferation of redundant information plays a major role in the emergence of objectivity out of the quantum world. Is this kind of objectivity necessarily classical? We show that if one takes Spekkens’s notion of noncontextuality as the notion of classicality and the approach of Brandão, Piani, and Horodecki to quantum Darwinism, the answer to the above question is “‘yes,” if the environment encodes the proliferated information sufficiently well. Moreover, we propose a threshold on this encoding, above which one can unambiguously say that classical objectivity has emerged under quantum Darwinism.

Published

2021

3. Events in quantum mechanics are maximally non-absolute

Author

George Moreno, Ranieri Nery, Cristhiano Duarte, and Rafael Chaves

Subjects

Quantum Physics, Physics and Astronomy (miscellaneous), FOS: Physical sciences, Quantum Physics (quant-ph), Atomic and Molecular Physics, and Optics

Abstract

The notorious quantum measurement problem brings out the difficulty to reconcile two quantum postulates: the unitary evolution of closed quantum systems and the wave-function collapse after a measurement. This problematics is particularly highlighted in the Wigner's friend thought experiment, where the mismatch between unitary evolution and measurement collapse leads to conflicting quantum descriptions for different observers. A recent no-go theorem has established that the (quantum) statistics arising from an extended Wigner's friend scenario is incompatible when one try to hold together three innocuous assumptions, namely no-superdeterminism, parameter independence and absoluteness of observed events. Building on this extended scenario, we introduce two novel measures of non-absoluteness of events. The first is based on the EPR2 decomposition, and the second involves the relaxation of the absoluteness hypothesis assumed in the aforementioned no-go theorem. To prove that quantum correlations can be maximally non-absolute according to both quantifiers, we show that chained Bell inequalities (and relaxations thereof) are also valid constraints for Wigner's experiment.

Published

2021

4. Emergence of Noncontextuality under Quantum Darwinism

Author

Barbara Amaral, Cristhiano Duarte, Marcelo Terra Cunha, Rafael Wagner, and Roberto D. Baldijão

Subjects

Physics, Quantum Physics, General Engineering, FOS: Physical sciences, INFORMAÇÃO QUÂNTICA, Quantum Darwinism, Quantitative Biology::Other, 01 natural sciences, Physics::History of Physics, 010305 fluids & plasmas, Connection (mathematics), Theoretical physics, 0103 physical sciences, Quantitative Biology::Populations and Evolution, General Earth and Planetary Sciences, Quantum Physics (quant-ph), 010306 general physics, Quantum, Quantum foundations, Quantum-to-classical transitions, Quantum Contextuality, Quantum Darwinism, General Environmental Science

Abstract

Quantum Darwinism proposes that the proliferation of redundant information plays a major role in the emergence of objectivity out of the quantum world. Is this kind of objectivity necessarily classical? We show that if one takes Spekkens' notion of noncontextuality as the notion of classicality and the approach of Brand\~{a}o, Piani and Horodecki to quantum Darwinism, the answer to the above question is `yes', if the environment encodes sufficiently well the proliferated information. Moreover, we propose a threshold on this encoding, above which one can unambiguously say that classical objectivity has emerged under quantum Darwinism., Comment: Essentially the accepted version. Enhanced clarity, but main results stand the same. Addition of two new subsections: 1- a cutoff for classical objectivity 2-state spectrum broadcasting case (+ the relative subsections to the appendix). For the final version, please look at PRX Quantum. 8 pages, 2 figures in the main text + 7 pages, 1 figure in the Appendix. Comments are welcome!

Published

2021

5. Relating compatibility and divisibility of quantum channels

Author

Cristhiano Duarte, Lorenzo Catani, and Raphael C. Drumond

Subjects

Quantum Physics, Physics and Astronomy (miscellaneous), General Mathematics, FOS: Physical sciences, Quantum Physics (quant-ph), Computer Science::Information Theory

Abstract

We connect two key concepts in quantum information: compatibility and divisibility of quantum channels. Two channels are compatible if they can be both obtained via marginalization from a third channel. A channel divides another channel if it reproduces its action by sequential composition with a third channel. (In)compatibility is of central importance for studying the difference between classical and quantum dynamics. The relevance of divisibility stands in its close relationship with the onset of Markovianity. We emphasize the simulability character of compatibility and divisibility, and, despite their structural difference, we find a set of channels -- self-degradable channels -- for which the two notions coincide. We also show that, for degradable channels, compatibility implies divisibility, and that, for anti-degradable channels, divisibility implies compatibility. These results motivate further research on these classes of channels and shed new light on the meaning of these two largely studied notions., Suggestions are welcome! =)

Published

2021

6. Analysis of Neural Network Predictions for Entanglement Self-Catalysis

Author

Thaís M. Acácio and Cristhiano Duarte

Subjects

Quantum Physics, General Physics and Astronomy, FOS: Physical sciences, Quantum Physics (quant-ph), Computer Science::Databases

Abstract

Machine learning techniques have been successfully applied to classifying an extensive range of phenomena in quantum theory. From detecting quantum phase transitions to identifying Bell non-locality, it has been established that classical machines can learn genuine quantum features via classical data. Quantum entanglement is one of the uniquely quantum phenomena in that range, as it has been shown that neural networks can be used to classify different types of entanglement. Our work builds on this topic. We investigate whether distinct models of neural networks can learn how to detect catalysis and self-catalysis of entanglement. Additionally, we also study whether a trained machine can detect another related phenomenon - which we dub transfer knowledge. As we build our models from scratch, besides making all the codes available, we can study a whole gamut of paradigmatic measures, including accuracy, execution time, training time, bias in the training data set and so on., Comment: We welcome suggestions! =)

Published

2021

7. Noncontextuality inequalities from antidistinguishability

Author

Matthew Leifer and Cristhiano Duarte

Subjects

Physics, Quantum Physics, FOS: Physical sciences, Quantum formalism, Graph theory, Function (mathematics), 01 natural sciences, 010305 fluids & plasmas, Quantum nonlocality, Theoretical physics, Probability theory, 0103 physical sciences, Quantum Physics (quant-ph), 010306 general physics

Abstract

Noncontextuality inequalities are usually derived from the distinguishability properties of quantum states, i.e. their orthogonality. Here, we show that antidistinguishability can also be used to derive noncontextuality inequalities. The Yu-Oh 13 ray noncontextuality inequality can be re-derived and generalized as an instance of our antidistinguishability method. For some sets of states, the antidistinguishability method gives tighter bounds on noncontextual models than just considering orthogonality, and the Hadamard states provide an example of this. We also derive noncontextuality inequalities based on mutually unbiased bases and symmetric informationally complete POVMs. Antidistinguishability based inequalities were initially discovered as overlap bounds for the reality of the quantum state. Our main contribution here is to show that they are also noncontextuality inequalities., Comments are welcome!

Published

2020

8. Semidefinite Tests for Quantum Network Topologies

Author

Rafael Chaves, R. V. Nery, Cristhiano Duarte, and Johan Aberg

Subjects

Quantum Physics, Class (set theory), Quantum network, Theoretical computer science, Computer science, General Physics and Astronomy, FOS: Physical sciences, Observable, Quantum entanglement, Network topology, 01 natural sciences, Clock synchronization, Quantum cryptography, 0103 physical sciences, 010306 general physics, Quantum Physics (quant-ph), Quantum computer

Abstract

Quantum networks play a major role in long-distance communication, quantum cryptography, clock synchronization, and distributed quantum computing. Generally, these protocols involve many independent sources sharing entanglement among distant parties that, upon measuring their systems, generate correlations across the network. The question of which correlations a given quantum network can give rise to, remains almost uncharted. Here we show that constraints on the observable covariances, previously derived for the classical case, also hold for quantum networks. The network topology yields tests that can be cast as semidefinite programs, thus allowing for the efficient characterization of the correlations in a wide class of quantum networks, as well as systematic derivations of device-independent and experimentally testable witnesses. We obtain such semidefinite tests for fixed measurement settings, as well as parties that independently choose among collections of measurement settings. The applicability of the method is demonstrated for various networks, and compared with previous approaches., Comment: Similar to the published version

Published

2020

9. Bell Non-Locality in Many Body Quantum Systems with Exponential Decay of Correlations

Author

Carlos H. S. Vieira, Marcelo Terra Cunha, Raphael C. Drumond, and Cristhiano Duarte

Subjects

Physics, Quantum Physics, General Physics and Astronomy, FOS: Physical sciences, Mathematical proof, Many body, Theoretical physics, Quantum nonlocality, Bell's theorem, Framing (construction), Exponential decay, Cluster analysis, Quantum Physics (quant-ph), Quantum

Abstract

Using Bell-inequalities as a tool to explore non-classical physical behaviours, in this paper we analyze what one can expect to find in many-body quantum physics. Concretely, framing the usual correlation scenarios as a concrete spin-lattice, we want to know whether or not it is possible to violate a Bell-inequality restricted to this scenario. Using clustering theorems, we are able to show that a large family of quantum many-body systems behave almost locally, violating Bell-inequalities (if so) only by a non-significant amount. We also provide examples, explain some of our assumptions via counter-examples and present all the proofs for our theorems. We hope the paper is self-contained., Comment: 12 pages. 3 figures. Comments are welcome!

Published

2020

10. Characterizing and quantifying extended contextuality

Author

Barbara Amaral and Cristhiano Duarte

Subjects

Physics, Linear programming, 0103 physical sciences, Idealization, Marginal distribution, 010306 general physics, 01 natural sciences, Mathematical economics, 010305 fluids & plasmas, Kochen–Specker theorem

Abstract

In an ideal contextuality scenario it is assumed that, whenever two contexts overlap, the marginal distribution obtained for the intersection of these contexts must be the same. Although this nondisturbance idealization has been extremely useful in investigating the limitations of physical theories, in this paper, we will work out a more robust and possibly more experimentally friendly framework for contextuality. Simply put, we will restate the extended definition of noncontextuality provided by the noncontextuality by default and show that in this extended perspective it is possible to avoid weakening the nondisturbance hypothesis. By doing so, we also show how standard tools for characterizing and quantifying contextuality can also be applied to this extended scenario. In particular, we came up with a linear program to check whether or not a behavior is contextual in the extended sense. The connection with the usual definition of contextuality is also established because whenever nondisturbance is fully satisfied the extended conditions reduce to the original ones.

Published

2019

11. Operational approach to the topological structure of the physical space

Author

B. F. Rizzuti, Cristhiano Duarte, and L. M. Gaio

Subjects

Philosophy of science, Multidisciplinary, Computer science, History and Overview (math.HO), Mathematics - History and Overview, Structure (category theory), Topology, Metric space, Perspective (geometry), History and Philosophy of Science, Compass, Physical space, FOS: Mathematics, Topology (chemistry), Geometry and topology

Abstract

axiomatic formulation of mathematical structures are extensively used to describe our physical world. We take here the reverse way. By making basic assumptions as starting point, we reconstruct some features of both geometry and topology in a fully operational manner. Curiously enough, primitive concepts such as points, spaces, straight lines, planes are all defined within our formalism. Our construction breaks down with the usual literature, as our axioms have deep connection with nature. Besides that, we hope this operational approach could also be of pedagogical interest., 12 pages; 15 figures

Published

2019

12. Concentration phenomena in the geometry of Bell correlations

Author

Barbara Amaral, Cristhiano Duarte, Rafael Chaves, and Samuraí Brito

Subjects

Physics, Quantum Physics, Degree (graph theory), FOS: Physical sciences, Sampling (statistics), Quantum correlations in quantum information, Geometry, 01 natural sciences, 010305 fluids & plasmas, Set (abstract data type), Quantum nonlocality, Distribution (mathematics), 0103 physical sciences, Trace distance, Quantum Physics (quant-ph), 010306 general physics, Quantum

Abstract

Bell's theorem shows that local measurements on entangled states give rise to correlations incompatible with local hidden variable models. The degree of quantum nonlocality is not maximal though, as there are even more nonlocal theories beyond quantum theory still compatible with the nonsignalling principle. In spite of decades of research, we still have a very fragmented picture of the whole geometry of these different sets of correlations. Here we employ both analytical and numerical tools to ameliorate that. First, we identify two different classes of Bell scenarios where the nonsignalling correlations can behave very differently: in one case, the correlations are generically quantum and nonlocal while on the other quite the opposite happens as the correlations are generically classical and local. Second, by randomly sampling over nonsignalling correlations, we compute the distribution of a nonlocality quantifier based on the trace distance to the local set. With that, we conclude that the nonlocal correlations can show concentration phenomena: their distribution is peaked at a distance from the local set that increases both with the number of parts or measurements being performed., Comment: Minor modifications. Still with 13 pages, 8 figures, 5 tables. Comments are welcome!

Published

2018

13. Geometry of the quantum set on no-signaling faces

Author

Cristhiano Duarte, Ashutosh Rai, Samuraí Brito, and Rafael Chaves

Subjects

Physics, Quantum Physics, Dimension (graph theory), No-signaling, FOS: Physical sciences, Characterization (mathematics), Quantum mechanics, 01 natural sciences, 010305 fluids & plasmas, Quantum nonlocality, Theoretical physics, Phenomenon, 0103 physical sciences, Feature (machine learning), No signaling, 010306 general physics, Set (psychology), Quantum Physics (quant-ph), Quantum

Abstract

Since Bell's theorem we know that quantum mechanics is incompatible with local hidden-variable models, the phenomenon known as quantum nonlocality. However, despite steady progress over the years, precise characterization of the set of quantum correlations remained elusive. There are correlations compatible with the no-signaling principle and still beyond what can be achieved within quantum theory, which has motivated the search for physical principles and computational methods to decide the quantum or postquantum behavior of correlations. Here, we identify a feature of Bell correlations that we call quantum voids: faces of the no-signaling set where all nonlocal correlations are postquantum. Considering the simplest possible Bell scenario, we give a full characterization of quantum voids, also understanding its connections to known principles and its potential use as a dimension witness., Comment: Close to the published version, title modified

Published

2018

14. Necessary Conditions for Extended Noncontextuality in General Sets of Random Variables

Author

Roberto I. Oliveira, Barbara Amaral, and Cristhiano Duarte

Subjects

Quantum Physics, FOS: Physical sciences, Statistical and Nonlinear Physics, Graph theory, 01 natural sciences, 010305 fluids & plasmas, Kochen–Specker theorem, 0103 physical sciences, Graph (abstract data type), Applied mathematics, Probability distribution, Marginal distribution, Quantum Physics (quant-ph), 010306 general physics, Random variable, Mathematical Physics, Mathematics

Abstract

In this paper, we explore the graph approach to contextuality to restate the extended definition of noncontextuality as given by Kujala et al. [Phys. Rev. Lett. 115, 150401 (2015)] using graph-theoretical terms. This extended definition avoids the assumption of the pre-sheaf or non-disturbance condition, which states that if two contexts overlap, then the marginal distribution obtained for the intersection must be the same, a restriction that will never be perfectly satisfied in real experiments. With this, we are able to derive necessary conditions for extended noncontextuality for any set of random variables based on the geometrical aspects of the graph approach, which can be tested directly with experimental data in any contextuality experiment and which reduce to traditional necessary conditions for noncontextuality if the non-disturbance condition is satisfied.In this paper, we explore the graph approach to contextuality to restate the extended definition of noncontextuality as given by Kujala et al. [Phys. Rev. Lett. 115, 150401 (2015)] using graph-theoretical terms. This extended definition avoids the assumption of the pre-sheaf or non-disturbance condition, which states that if two contexts overlap, then the marginal distribution obtained for the intersection must be the same, a restriction that will never be perfectly satisfied in real experiments. With this, we are able to derive necessary conditions for extended noncontextuality for any set of random variables based on the geometrical aspects of the graph approach, which can be tested directly with experimental data in any contextuality experiment and which reduce to traditional necessary conditions for noncontextuality if the non-disturbance condition is satisfied.

Published

2017

15. Emerging dynamics arising from coarse-grained quantum systems

Author

Gabriel D. Carvalho, Nadja K. Bernardes, Cristhiano Duarte, and Fernando de Melo

Subjects

Physics, Quantum Physics, Spectrum (functional analysis), Degrees of freedom (physics and chemistry), FOS: Physical sciences, Elementary particle, 01 natural sciences, Action (physics), 010305 fluids & plasmas, Theoretical physics, Dynamics (music), 0103 physical sciences, 010306 general physics, Quantum Physics (quant-ph), Quantum, Galaxy cluster

Abstract

The purpose of physics is to describe nature from elementary particles all the way up to cosmological objects like cluster of galaxies and black holes. Although a unified description for all this spectrum of events is desirable, this would be highly impractical. To not get lost in unnecessary details, effective descriptions are mandatory. Here we analyze the dynamics that may emerge from a full quantum description when one does not have access to all the degrees of freedom of a system. More concretely, we describe the properties of the dynamics that arise from quantum mechanics if one has access only to a coarse-grained description of the system. We obtain that the effective maps are not necessarily of Kraus form, due to correlations between accessible and nonaccessible degrees of freedom, and that the distance between two effective states may increase under the action of the effective map. We expect our framework to be useful for addressing questions such as the thermalization of closed quantum systems, as well as the description of measurements in quantum mechanics., 10 pages, 8 figures. v3: Title changed; minor improvements. Version accepted for publication

Published

2017

16. Resource theory of contextuality for arbitrary prepare-and-measure experiments

Author

Barbara Amaral and Cristhiano Duarte

Subjects

Quantum Physics, Theoretical computer science, Linear programming, Computer science, FOS: Physical sciences, Computer Science::Computation and Language (Computational Linguistics and Natural Language and Speech Processing), Statistical and Nonlinear Physics, 01 natural sciences, Measure (mathematics), 010305 fluids & plasmas, Kochen–Specker theorem, Set (abstract data type), Quantum nonlocality, Resource (project management), 0103 physical sciences, Quantum Physics (quant-ph), 010306 general physics, Quantum, Parametrization, Mathematical Physics

Abstract

Contextuality has been identified as a potential resource responsible for the quantum advantage in several tasks. It is then necessary to develop a resource-theoretic framework for contextuality, both in its standard and generalized forms. Here we provide a formal resource-theoretic approach for generalized contextuality based on a physically motivated set of free operations with an explicit parametrisation. Then, using an efficient linear programming characterization for the contextual set of prepared-and-measured statistics, we adapt known resource quantifiers for contextuality and nonlocality to obtain natural monotones for generalized contextuality in arbitrary prepare-and-measure experiments., Comment: 11 pages, 4 figures. Comments are welcome!

Published

2018

17. Small violations of Bell inequalities for multipartite pure random states

Author

Roberto I. Oliveira, Cristhiano Duarte, and Raphael C. Drumond

Subjects

Pure mathematics, media_common.quotation_subject, Zero (complex analysis), Hilbert space, Statistical and Nonlinear Physics, Infinity, 01 natural sciences, 010305 fluids & plasmas, Multipartite, symbols.namesake, Dimension (vector space), Bell's theorem, 0103 physical sciences, symbols, Uniform boundedness, 010306 general physics, Finite set, Mathematical Physics, media_common, Mathematics

Abstract

For any finite number of parts, measurements, and outcomes in a Bell scenario, we estimate the probability of random N-qudit pure states to substantially violate any Bell inequality with uniformly bounded coefficients. We prove that under some conditions on the local dimension, the probability to find any significant amount of violation goes to zero exponentially fast as the number of parts goes to infinity. In addition, we also prove that if the number of parts is at least 3, this probability also goes to zero as the local Hilbert space dimension goes to infinity.

Published

2018

18. Universality of finite time disentanglement

Author

M. C. Nemes, Raphael C. Drumond, Cristhiano Duarte, and Marcelo Terra Cunha

Subjects

Physics, Pure mathematics, Quantum Physics, Conjecture, Quantum dynamics, Hilbert space, FOS: Physical sciences, Unitary state, Universality (dynamical systems), symbols.namesake, Quantum state, Quantum mechanics, Qubit, Bipartite graph, symbols, Quantum Physics (quant-ph)

Abstract

In this paper we investigate how common is the phenomenon of Finite Time Disentanglement (FTD) with respect to the set of quantum dynamics of bipartite quantum states with finite dimensional Hilbert spaces. Considering a quantum dynamics from a general sense, as just a continuous family of Completely Positive Trace Preserving maps (parametrized by the time variable) acting on the space of the bipartite systems, we conjecture that FTD happens for all dynamics but those when all maps of the family are induced by local unitary operations. We prove this conjecture valid for two important cases: i) when all maps are induced by unitaries; ii) for pairs of qubits, when all maps are unital. Moreover, we prove some general results about unitaries/CPTP maps preserving product/pure states, 7 pages and 2 figures. New title. Improved version! Comments are welcome

Published

2015

19. Multigraph approach to quantum non-locality

Author

Marcelo Terra Cunha, Rafael Rabelo, Cristhiano Duarte, Antonio J. López-Tarrida, and Adán Cabello

Subjects

Statistics and Probability, Quantum Physics, Multigraph, General Physics and Astronomy, FOS: Physical sciences, Statistical and Nonlinear Physics, Upper and lower bounds, Pentagon, Combinatorics, Quantum nonlocality, Bell's theorem, Modeling and Simulation, Bipartite graph, Linear combination, Quantum Physics (quant-ph), Quantum, Mathematical Physics, Mathematics

Abstract

Non-contextuality (NC) and Bell inequalities can be expressed as bounds $\Omega$ for positive linear combinations $S$ of probabilities of events, $S \leq \Omega$. Exclusive events in $S$ can be represented as adjacent vertices of a graph called the exclusivity graph of $S$. In the case that events correspond to the outcomes of quantum projective measurements, quantum probabilities are intimately related to the Gr\"otschel-Lov\'asz-Schrijver theta body of the exclusivity graph. Then, one can easily compute an upper bound to the maximum quantum violation of any NC or Bell inequality by optimizing $S$ over the theta body and calculating the Lov\'asz number of the corresponding exclusivity graph. In some cases, this upper bound is tight and gives the exact maximum quantum violation. However, in general, this is not the case. The reason is that the exclusivity graph does not distinguish among the different ways exclusivity can occur in Bell-inequality (and similar) scenarios. An interesting question is whether there is a graph-theoretical concept which accounts for this problem. Here we show that, for any given $N$-partite Bell inequality, an edge-coloured multigraph composed of $N$ single-colour graphs can be used to encode the relationships of exclusivity between each party's parts of the events. Then, the maximum quantum violation of the Bell inequality is exactly given by a refinement of the Lov\'asz number that applies to these edge-coloured multigraphs. We show how to calculate upper bounds for this number using a hierarchy of semi-definite programs and calculate upper bounds for $I_3$, $I_{3322}$ and the three bipartite Bell inequalities whose exclusivity graph is a pentagon. The multigraph-theoretical approach introduced here may remove some obstacles in the program of explaining quantum correlations from first principles., Comment: 21 pages, 5 figures

Published

2014

20. Non universality of entanglement convertibility

Author

G. I. Luiz, M. C. O. Aguiar, Marcelo França Santos, Cristhiano Duarte, Helena Bragança, Rodrigo G. Pereira, and Eduardo Mascarenhas

Subjects

Physics, Quantum phase transition, Quantum Physics, Phase transition, Work (thermodynamics), Strongly Correlated Electrons (cond-mat.str-el), Spectrum (functional analysis), Convertibility, FOS: Physical sciences, Quantum entanglement, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Condensed Matter - Strongly Correlated Electrons, Quantum mechanics, Homogeneous space, Statistical physics, COMPUTAÇÃO QUÂNTICA, Quantum Physics (quant-ph), Quantum computer

Abstract

Recently, it has been suggested that operational properties connected to quantum computation can be alternative indicators of quantum phase transitions. In this work we systematically study these operational properties in 1D systems that present phase transitions of different orders. For this purpose, we evaluate the local convertibility between bipartite ground states. Our results suggest that the operational properties, related to non-analyticities of the entanglement spectrum, are good detectors of explicit symmetries of the model, but not necessarily of phase transitions. We also show that thermodynamically equivalent phases, such as Luttinger liquids, may display different convertibility properties depending on the underlying microscopic model., Comment: 5 pages + references, 4 figures - improved version

Published

2013

21. Self-catalytic conversion of pure quantum states

Author

Cristhiano Duarte, Raphael C. Drumond, and Marcelo Terra Cunha

Subjects

Statistics and Probability, LOCC, Conjecture, Process (computing), General Physics and Astronomy, 020206 networking & telecommunications, Statistical and Nonlinear Physics, Monotonic function, 02 engineering and technology, State (functional analysis), 01 natural sciences, Catalysis, Quantum state, Modeling and Simulation, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Statistical physics, 010306 general physics, Mathematical Physics, Mathematics

Abstract

Conversion of entangled states under (stochastic) local operations and classical communication ((S)LOCC) admits the phenomenon of catalysis. Here we explore the possibility of a copy of the initial state itself performing as a catalyst, which we call a self-catalytic process. We show explicit examples of self-catalysis. Necessary and sufficient conditions for the phenomenon to take place are discussed. We numerically estimate how frequent it is and we show that increasing the number of copies used as catalyst can increase the probability of conversion, but does not make the process deterministic. By the end we conjecture that under LOCC the probability of finding a self-catalytic reaction does not increase monotonically with the dimensions whereas under SLOCC, it does increase.

Published

2016

22. Multigraph approach to quantum non-locality.

Author

Rafael Rabelo, Cristhiano Duarte, Antonio J López-Tarrida, Marcelo Terra Cunha, and Adán Cabello

Subjects

*BELL'S theorem, *MULTIGRAPH, *QUANTUM measurement, *QUANTUM correlations, *QUANTUM theory

Abstract

Non-contextuality (NC) and Bell inequalities can be expressed as bounds Ω for positive linear combinations S of probabilities of events, . Exclusive events in S can be represented as adjacent vertices of a graph called the exclusivity graph of S. In the case that events correspond to the outcomes of quantum projective measurements, quantum probabilities are intimately related to the Grötschel–Lovász–Schrijver theta body of the exclusivity graph. Then, one can easily compute an upper bound to the maximum quantum violation of any NC or Bell inequality by optimizing S over the theta body and calculating the Lovász number of the corresponding exclusivity graph. In some cases, this upper bound is tight and gives the exact maximum quantum violation. However, in general, this is not the case. The reason is that the exclusivity graph does not distinguish among the different ways exclusivity can occur in Bell-inequality (and similar) scenarios. An interesting question is whether there is a graph-theoretical concept which accounts for this problem. Here we show that, for any given N-partite Bell inequality, an edge-coloured multigraph composed of N single-colour graphs can be used to encode the relationships of exclusivity between each partyʼs parts of the events. Then, the maximum quantum violation of the Bell inequality is exactly given by a refinement of the Lovász number that applies to these edge-coloured multigraphs. We show how to calculate upper bounds for this number using a hierarchy of semi-definite programs and calculate upper bounds for I3, I3322 and the three bipartite Bell inequalities whose exclusivity graph is a pentagon. The multigraph-theoretical approach introduced here may remove some obstacles in the program of explaining quantum correlations from first principles.This article is part of a special issue of Journal of Physics A: Mathematical and Theoretical devoted to ‘50 years of Bell’s theorem’. [ABSTRACT FROM AUTHOR]

Published

2014