Your search keyword '"Waldemar Kłobus"' showing total 15 results

1. Transition from order to chaos in reduced quantum dynamics

Author

Waldemar Kłobus, Paweł Kurzyński, Marek Kuś, Wiesław Laskowski, Robert Przybycień, and Karol Życzkowski

Subjects

Nonlinear Sciences::Chaotic Dynamics, Quantum Physics, FOS: Physical sciences, Chaotic Dynamics (nlin.CD), Nonlinear Sciences - Chaotic Dynamics, Quantum Physics (quant-ph)

Abstract

We study a damped kicked top dynamics of a large number of qubits ($N \rightarrow \infty$) and focus on an evolution of a reduced single-qubit subsystem. Each subsystem is subjected to the amplitude damping channel controlled by the damping constant $r\in [0,1]$, which plays the role of the single control parameter. In the parameter range for which the classical dynamics is chaotic, while varying $r$ we find the universal period-doubling behavior characteristic to one-dimensional maps: period-two dynamics starts at $r_1 \approx 0.3181$, while the next bifurcation occurs at $ r_2 \approx 0.5387$. In parallel with period-four oscillations observed for $r \leq r_3 \approx 0.5672$, we identify a secondary bifurcation diagram around $r\approx 0.544$, responsible for a small-scale chaotic dynamics inside the attractor. The doubling of the principal bifurcation tree continues until $r \leq r_{\infty} \sim 0.578$, which marks the onset of the full scale chaos interrupted by the windows of the oscillatory dynamics corresponding to the Sharkovsky order., Comment: 10 pages, 8 figures

Published

2021

2. Gaussian state entanglement witnessing through lossy compression

Author

Wiesław Laskowski, Paweł Cieśliński, Lukas Knips, Waldemar Kłobus, and Paweł Kurzyński

Subjects

Physics, Quantum Physics, Gaussian, FOS: Physical sciences, TheoryofComputation_GENERAL, Data_CODINGANDINFORMATIONTHEORY, State (functional analysis), Quantum entanglement, Lossy compression, 01 natural sciences, 010305 fluids & plasmas, symbols.namesake, Computer Science::Emerging Technologies, Qubit, Product (mathematics), Quantum mechanics, 0103 physical sciences, Key (cryptography), symbols, Hardware_ARITHMETICANDLOGICSTRUCTURES, Quantum Physics (quant-ph), 010306 general physics

Abstract

We propose a method to witness entanglement between two continuous-variable systems in a Gaussian state. Its key ingredient is a local lossy state transfer from the original spatially separated systems onto two spatially separated qubits. The qubits are initially in a pure product state, therefore by detecting entanglement between the qubits we witness entanglement between the two original systems. This method greatly simplifies entanglement witnessing in complex systems., 5 pages, 2 figures

Published

2021

3. Cooperation and dependencies in multipartite systems

Author

Harald Weinfurter, Tomasz Paterek, Jan Dziewior, Marek Miller, Lukas Knips, Ray Ganardi, Waldemar Kłobus, Jasmin D. A. Meinecke, Mahasweta Pandit, Wiesław Laskowski, School of Physical and Mathematical Sciences, and MajuLab

Subjects

Physics, Mathematics [Science], Quantum Physics, Dependency (UML), Theoretical computer science, Degree (graph theory), Conditional mutual information, General Physics and Astronomy, FOS: Physical sciences, Monotonic function, 01 natural sciences, Secret sharing, 010305 fluids & plasmas, Task (project management), Multipartite, Multipartite Entanglement, 0103 physical sciences, Quantifier (linguistics), Quantum Information, 010306 general physics, Quantum Physics (quant-ph)

Abstract

We propose an information-theoretic quantifier for the advantage gained from cooperation that captures the degree of dependency between subsystems of a global system. The quantifier is distinct from measures of multipartite correlations despite sharing many properties with them. It is directly computable for classical as well as quantum systems and reduces to comparing the respective conditional mutual information between any two subsystems. Exemplarily we show the benefits of using the new quantifier for symmetric quantum secret sharing. We also prove an inequality characterizing the lack of monotonicity of conditional mutual information under local operations and provide intuitive understanding for it. This underlines the distinction between the multipartite dependence measure introduced here and multipartite correlations., Comment: 9 pages, journal version

Published

2020

4. Higher dimensional entanglement without correlations

Author

Wiesław Laskowski, Harald Weinfurter, Waldemar Kłobus, Tomasz Paterek, Marcin Wieśniak, School of Physical and Mathematical Sciences, and MajuLab @ NTU

Subjects

Physics, Quantum Physics, Correlations, Optical physics, FOS: Physical sciences, Quantum entanglement, 01 natural sciences, Multipartite entanglement, Atomic and Molecular Physics, and Optics, 010305 fluids & plasmas, Multipartite, Physics [Science], Qubit, Quantum mechanics, 0103 physical sciences, Quantum Physics (quant-ph), 010306 general physics, Quantum, Dimensional

Abstract

It has been demonstrated both theoretically and experimentally that genuine multipartite entanglement between qubits can exist even in the absence of multipartite correlations. Here we provide first examples of this effect in higher dimensional systems -- qudits. We construct states in which genuine $N$-partite entanglement between qudits is supported only by correlations involving strictly less than $N$ particles. The construction differs in several aspects from the ones for qubits. The states introduced here are a natural test-bed for candidate quantifiers of genuinely multipartite quantum correlations., 6 pages, 1 figure

Published

2019

5. $k$-uniform mixed states

Author

Adam Burchardt, Wiesław Laskowski, Waldemar Kłobus, Mahasweta Pandit, Adrian Kołodziejski, Tamás Vértesi, and Karol Życzkowski

Subjects

Physics, Quantum Physics, Pauli matrices, Mixed states, FOS: Physical sciences, State (functional analysis), 01 natural sciences, Multipartite entanglement, 010305 fluids & plasmas, Set (abstract data type), symbols.namesake, Theoretical physics, Scheme (mathematics), 0103 physical sciences, symbols, Orthogonal array, 010306 general physics, Quantum Physics (quant-ph)

Abstract

We investigate the maximum purity that can be achieved by k-uniform mixed states of N parties. Such N-party states have the property that all their k-party reduced states are maximally mixed. A scheme to construct explicitly k-uniform states using a set of specific N-qubit Pauli matrices is proposed. We provide several different examples of such states and demonstrate that in some cases the state corresponds to a particular orthogonal array. The obtained states, despite being mixed, reveal strong non-classical properties such as genuine multipartite entanglement or violation of Bell inequalities., Comment: 10 pages, 2 figures, journal version

Published

2019

6. Communication Strength of Correlations Violating Monogamy Relations

Author

Michał Oszmaniec, Remigiusz Augusiak, Andrzej Grudka, and Waldemar Kłobus

Subjects

0301 basic medicine, Quantum Physics, Inequality, Computer science, media_common.quotation_subject, Subject (philosophy), FOS: Physical sciences, General Physics and Astronomy, Context (language use), 01 natural sciences, Black hole, 03 medical and health sciences, 030104 developmental biology, 0103 physical sciences, Quantum Physics (quant-ph), 010306 general physics, Relation (history of concept), Mathematical economics, media_common

Abstract

In any theory satisfying the no-signaling principle correlations generated among spatially separated parties in a Bell-type experiment are subject to certain constraints known as monogamy relations. Recently, in the context of the black hole information loss problem it was suggested that these monogamy relations might be violated. This in turn implies that correlations arising in such a scenario must violate the no-signaling principle and hence can be used to send classical information between parties. Here, we study the amount of information that can be sent using such correlations. To this aim, we first provide a framework associating them with classical channels whose capacities are then used to quantify the usefulness of these correlations in sending information. Finally, we determine the minimal amount of information that can be sent using signaling correlations violating the monogamy relation associated to the chained Bell inequalities., Comment: 14 pages, 2 figures; improved version; accepted for publication in Foundations of Physics

Published

2016

7. Conditional uncertainty principle

Author

Andrzej Grudka, Waldemar Kłobus, Michał Horodecki, Justyna Łodyga, Gilad Gour, Varun Narasimhachar, and School of Physical and Mathematical Sciences

Subjects

Quantum Physics, Uncertainty principle, Mathematical relation, 01 natural sciences, Upper and lower bounds, 010305 fluids & plasmas, Monotone polygon, Physics [Science], Conditional quantum entropy, 0103 physical sciences, Operational framework, Applied mathematics, Entropic uncertainty, Conditional Majorization, 010306 general physics, Majorization, Algorithm, Mathematics

Abstract

We develop a general operational framework that formalizes the concept of conditional uncertainty in a measure-independent fashion. Our formalism is built upon a mathematical relation which we call conditional majorization. We define conditional majorization and, for the case of classical memory, we provide its thorough characterization in terms of monotones, i.e., functions that preserve the partial order under conditional majorization. We demonstrate the application of this framework by deriving two types of memory-assisted uncertainty relations, (1) a monotone-based conditional uncertainty relation and (2) a universal measure-independent conditional uncertainty relation, both of which set a lower bound on the minimal uncertainty that Bob has about Alice's pair of incompatible measurements, conditioned on arbitrary measurement that Bob makes on his own system. We next compare the obtained relations with their existing entropic counterparts and find that they are at least independent. Ministry of Education (MOE) National Research Foundation (NRF) Published version This work is supported by ERC Advanced Grant QOLAPS and National Science Centre Grants Mae- stro No. DEC-2011/02/A/ST2/00305 and OPUS 9 No. 2015/17/B/ST2/01945. V.N. acknowledges financial support from the Ministry of Education of Singapore, the National Research Foundation (NRF Fellowship Reference No. NRF- NRFF2016-02), and the John Templeton Foundation (Grant No. 54914).

Published

2018

8. Measurement uncertainty from no-signaling and nonlocality

Author

Ravishankar Ramanathan, Justyna Łodyga, Andrzej Grudka, Waldemar Kłobus, Michał Horodecki, and Ryszard Horodecki

Subjects

Physics, Quantum Physics, Uncertainty principle, Quantum limit, FOS: Physical sciences, 01 natural sciences, 010305 fluids & plasmas, Open quantum system, Theoretical physics, Quantum nonlocality, symbols.namesake, Hidden variable theory, Quantum process, 0103 physical sciences, symbols, Measurement uncertainty, EPR paradox, Quantum Physics (quant-ph), 010306 general physics

Abstract

One of the formulations of Heisenberg uncertainty principle, concerning so-called measurement uncertainty, states that the measurement of one observable modifies the statistics of the other. Here, we derive such a measurement uncertainty principle from two comprehensible assumptions: impossibility of instantaneous messaging at a distance (no-signaling), and violation of Bell inequalities (non-locality). The uncertainty is established for a pair of observables of one of two spatially separated systems that exhibit non-local correlations. To this end, we introduce a gentle form of measurement which acquires partial information about one of the observables. We then bound disturbance of the remaining observables by the amount of information gained from the gentle measurement, minus a correction depending on the degree of non-locality. The obtained quantitative expression resembles the quantum mechanical formulations, yet it is derived without the quantum formalism and complements the known qualitative effect of disturbance implied by non-locality and no-signaling., Comment: 4 pages main + 8 pages appendix; 3 figures

Published

2017

9. Entanglement Detection with Non-Ideal Ferromagnetic Detectors

Author

P. Rożek, Christian Schönenberger, Waldemar Kłobus, J. Martinek, Andrzej Grudka, Damian Tomaszewski, Piotr Busz, and Andreas Baumgartner

Subjects

Physics, Quantum decoherence, Quantum cryptography, Spin polarization, Quantum electrodynamics, Quantum mechanics, General Physics and Astronomy, Quantum Physics, Quantum entanglement, Spin (physics), Squashed entanglement, Quantum information science, Entanglement witness

Abstract

Entangled states are essential in basics quantum communication protocols and quantum cryptography. Ferromagnetic contacts can work as a spin detector, giving possibility of converting information about electron spin to the electric charge, and therefore, detection of entangled states with the electric current measurements is possible. Method of confirming entanglement with non-ideal detectors is presented, the impact of decoherence and noise on states and quality of entanglement is discussed. Entanglement witness (EW) operator method is compared with the CHSH inequalities approach. Required spin polarization for the EW is lower than for the CHSH inequalities. System with asymmetric spin polarizations of detectors was analyzed, including the CHSH inequalities and the EW method.

Published

2015

10. Axiomatic approach to contextuality and nonlocality

Author

P. Joshi, Waldemar Kłobus, Justyna Łodyga, Karol Horodecki, and Andrzej Grudka

Subjects

Physics, Discrete mathematics, Class (set theory), Quantum Physics, Axiomatic system, FOS: Physical sciences, Mathematical proof, Measure (mathematics), Atomic and Molecular Physics, and Optics, Quantum nonlocality, Development (topology), Bounded function, Quantum mechanics, Quantum Physics (quant-ph), Axiom

Abstract

We present a unified axiomatic approach to contextuality and non-locality based on the fact that both are resource theories. In those theories the main objects are consistent boxes, which can be transformed by certain operations to achieve certain tasks. The amount of resource is quantified by appropriate measures of the resource. Following recent paper [J.I. de Vicente, J. Phys. A: Math. Theor. {\bf 47}, 424017 (2014)], and recent development of abstract approach to resource theories, such as entanglement theory, we propose axioms and welcome properties for operations and measures of resources. As one of the axioms of the measure we propose the asymptotic continuity: the measure should not differ on boxes that are close to each other by more than the distance with a factor depending logarithmically on the dimension of the boxes. We prove that relative entropy of contextuality is asymptotically continuous. Considering another concept from entanglement theory---the convex roof of a measure---we prove that for some non-local and contextual polytopes, the relative entropy of a resource is upper bounded up to a constant factor by the cost of the resource. Finally, we prove that providing a measure $X$ of resource does not increase under allowed class of operations, such as e.g. wirings, the maximal distillable resource which can be obtained by these operations is bounded from above by the value of $X$ up to a constant factor. We show explicitly which axioms are used in the proofs of presented results, so that analogous results may remain true in other resource theories with analogous axioms. We also make use of the known distillation protocol of bipartite nonlocality to show how contextual resources can be distilled., 17 pages, comments are most welcome

Published

2015

11. Entanglement witnessing and quantum cryptography with nonideal ferromagnetic detectors

Author

Waldemar Kłobus, Andrzej Grudka, Damian Tomaszewski, Andreas Baumgartner, Christian Schönenberger, and J. Martinek

Subjects

Physics, Quantum Physics, Quantum decoherence, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed matter physics, Spin polarization, Quantum sensor, FOS: Physical sciences, Quantum entanglement, Condensed Matter Physics, Squashed entanglement, Electronic, Optical and Magnetic Materials, Quantum cryptography, Quantum mechanics, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Quantum Physics (quant-ph), Entanglement witness, Spin-½

Abstract

We investigate theoretically the use of non-ideal ferromagnetic contacts as a mean to detect quantum entanglement of electron spins in transport experiments. We use a designated entanglement witness and find a minimal spin polarization of $��> 1/\sqrt{3} \approx 58 %$ required to demonstrate spin entanglement. This is significantly less stringent than the ubiquitous tests of Bell's inequality with $��> 1/\sqrt[4]{2}\approx 84%$. In addition, we discuss the impact of decoherence and noise on entanglement detection and apply the presented framework to a simple quantum cryptography protocol. Our results are directly applicable to a large variety of experiments., 10 pages, 4 figures

Published

2014

12. Conjectured strong complementary-correlations tradeoff

Author

Andrzej Grudka, Łukasz Pankowski, Waldemar Kłobus, Michał Horodecki, Ryszard Horodecki, and Paweł Horodecki

Subjects

Physics, Quantum Physics, Conjecture, FOS: Physical sciences, Observable, 01 natural sciences, Atomic and Molecular Physics, and Optics, 010305 fluids & plasmas, Formalism (philosophy of mathematics), Theoretical physics, Measurement theory, Quantum state, Quantum mechanics, 0103 physical sciences, Quantum Physics (quant-ph), 010306 general physics

Abstract

We conjecture new uncertainty relations which restrict correlations between results of measurements performed by two separated parties on a shared quantum state. The first uncertainty relation bounds the sum of two mutual informations when one party measures a single observable and the other party measures one of two observables. The uncertainty relation does not follow from Maassen-Uffink uncertainty relation and is much stronger than Hall uncertainty relation derived from the latter. The second uncertainty relation bounds the sum of two mutual informations when each party measures one of two observables. We provide numerical evidence for validity of conjectured uncertainty relations and prove them for large classes of states and observables., 7 pages

Published

2013

13. When Are Popescu-Rohrlich Boxes and Random Access Codes Equivalent?

Author

Karol Horodecki, Marcin Pawłowski, Andrzej Grudka, Waldemar Kłobus, and Michał Horodecki

Subjects

Discrete mathematics, Quantum Physics, Computer science, General Physics and Astronomy, FOS: Physical sciences, 01 natural sciences, 010305 fluids & plasmas, Measurement theory, 0103 physical sciences, Converse, Code (cryptography), Algebraic number, 010306 general physics, Quantum Physics (quant-ph), Random access

Abstract

We study a problem of interconvertibility of two supra-quantum resources: one is so called PR-box, which violates CHSH inequality up to maximal algebraic bound, and second is so called random access code (RAC). The latter is a functionality that enables Bob (receiver) to choose one of two bits of Alice. It has been known, that PR-box supplemented with one bit of communication can be used to simulate RAC. We ask the converse question: to what extent RAC can simulate PR-box? To this end we introduce racbox: a box such that supplemented with one bit of communication offers RAC. As said, PR-box can simulate racbox. The question we raise, is whether any racbox can simulate PR-box. We show that a non-signaling racbox indeed can simulate PR-box, hence those two resources are equivalent. We also provide an example of signalling racbox which cannot simulate PR-box. We give a resource inequality between racbox es and PR-boxes, and show that it is saturated., Comment: 10 pages, 4 figures

Published

2013

14. Nonlocality activation in entanglement swapping chains

Author

Waldemar Kłobus, Andrzej Grudka, Wiesław Laskowski, and Marcin Markiewicz

Subjects

Physics, Quantum Physics, CHSH inequality, TheoryofComputation_GENERAL, FOS: Physical sciences, Quantum entanglement, State (functional analysis), 01 natural sciences, Atomic and Molecular Physics, and Optics, 010305 fluids & plasmas, Quantum nonlocality, Quantum mechanics, 0103 physical sciences, Bipartite graph, Bell test experiments, 010306 general physics, Quantum Physics (quant-ph)

Abstract

We consider multiple entanglement swappings performed on a chain of bipartite states. Each state does not violate CHSH inequality. We show that before some critical number of entanglement swappings is achieved the output state does not violate this inequality either. However, if this number is achieved then for some results of Bell measurements obtained in the protocol of entanglement swapping the output state violates CHSH inequality. Moreover, we show that for different states we have different critical numbers for which CHSH inequality is activated., Comment: 4 pages

Published

2012

15. Comment on 'Information flow of quantum states interacting with closed timelike curves'

Author

Waldemar Kłobus, Antoni Wójcik, and Andrzej Grudka

Subjects

Physics, Quantum Physics, Quantum geometry, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), General Relativity and Quantum Cosmology, Atomic and Molecular Physics, and Optics, Open quantum system, Classical mechanics, Quantum state, Quantum process, Quantum information, Quantum information science, Quantum statistical mechanics, Quantum Physics (quant-ph), Closed timelike curve

Abstract

We show that recent results on the interaction of causality-respecting particles with particles on closed timelike curves derived in [Phys. Rev. A 82, 062330 (2010)] depend on ambiguous assumptions about the form of the state which is inputted into the proposed equivalent circuit. Choosing a different form of this state leads to an opposite conclusion on the power of closed timelike curves.

Published

2011