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1. Valley two-qubit system in a MoS$_2$-monolayer gated double quantum dot

Author

Pawłowski, J., Bieniek, M., and Woźniak, T.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We explore a two-qubit system defined on valley isospins of two electrons confined in a gate-defined double quantum dot created within a MoS$_2$ monolayer flake. We show how to initialize, control, interact and read out such valley qubits only by electrical means using voltages applied to the local planar gates, which are layered on the top of the flake. By demonstrating the two-qubit exchange or readout via the Pauli blockade, we prove that valley qubits in transition-metal-dichalcogenide semiconductors family fulfill the universality criteria and represent a scalable quantum computing platform. Our numerical experiments are based on the tight-binding model for a MoS$_2$ monolayer, which gives single-electron eigenstates that are then used to construct a basis of Slater-determinants for the two-electron configuration space. We express screened electron-electron interactions in this basis by calculating the Coulomb matrix elements using localized Slater-type orbitals. Then we solve the time-dependent Schr\"odinger equation and obtain an exact time-evolution of the two-electron system. During the evolution we simultaneously solve the Poison equation, finding the confinement potential controlled via voltages applied to the gates., Comment: 15 pages, 12 figures

Published
2021
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2. VECMAtk: A Scalable Verification, Validation and Uncertainty Quantification Toolkit for Scientific Simulations

Author

Groen, D., Arabnejad, H., Jancauskas, V., Edeling, W. N., Jansson, F., Richardson, R. A., Lakhlili, J., Veen, L., Bosak, B., Kopta, P., Wright, D. W., Monnier, N., Karlshoefer, P., Suleimenova, D., Sinclair, R., Vassaux, M., Nikishova, A., Bieniek, M., Luk, O. O., Kulczewski, M., Raffin, E., Crommelin, D., Hoenen, O., Coster, D. P., Piontek, T., and Coveney, P. V.

Subjects
Computer Science - Mathematical Software
Abstract

We present the VECMA toolkit (VECMAtk), a flexible software environment for single and multiscale simulations that introduces directly applicable and reusable procedures for verification, validation (V&V), sensitivity analysis (SA) and uncertainty quantification (UQ). It enables users to verify key aspects of their applications, systematically compare and validate the simulation outputs against observational or benchmark data, and run simulations conveniently on any platform from the desktop to current multi-petascale computers. In this sequel to our paper on VECMAtk which we presented last year, we focus on a range of functional and performance improvements that we have introduced, cover newly introduced components, and applications examples from seven different domains such as conflict modelling and environmental sciences. We also present several implemented patterns for UQ/SA and V&V, and guide the reader through one example concerning COVID-19 modelling in detail., Comment: 23 pages, 10 figures

Published
2020
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3. 3D modelling of self-organized patterns of spots on anodes of DC glow discharge

Author

Bieniek, M. S., Almeida, P. G. C., and Benilov, M. S.

Subjects
Physics - Plasma Physics
Abstract

Self-organized patterns of spots on a at metallic anode in a cylindrical glow dis- charge tube are simulated self-consistently. A standard model of a glow discharge is used, comprising conservation and transport equations for a single species of ion and electrons, written with the use of the drift-diffusion and local-field approximations, and the Poisson equation. The computation domain is the region from the anode to the discharge column; only processes in the near-anode region are considered. Multiple solutions, existing in the same range of discharge current and describing modes with and without anode spots, are computed by means of a stationary solver. The computed spots exhibited unexpected behavior. A reversal of the local anode current density in the middle of each of the spots was found, i.e. mini-cathodes are formed inside the spots. The solutions do not fit into the conventional pattern of self-organization in bistable nonlinear dissipative systems; e.g. the modes are not joined by bifurcations.

Published
2018
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4. Bifurcations in the theory of current transfer to cathodes of dc discharges and observations of transitions between different modes

Author

Bieniek, M. S., Santos, D., Almeida, P. G. C., and Benilov, M. S.

Subjects
Physics - Plasma Physics
Abstract

General scenarios of transitions between different spot patterns on electrodes of dc gas discharges and their relation to bifurcations of steady-state solutions are analyzed. In the case of cathodes of arc discharges, it is shown that any transition between different modes of current transfer is related to a bifurcation of steady-state solutions. In particular, transitions between diffuse and spot modes on axially symmetric cathodes, frequently observed in the experiment, represent an indication of the presence of pitchfork or fold bifurcations of steady-state solutions. Experimental observations of transitions on cathodes of dc glow microdischarges are analyzed and those potentially related to bifurcations of steady-state solutions are identified. The relevant bifurcations are investigated numerically and the computed patterns are found to conform to those observed in the course of the corresponding transitions in the experiment.

Published
2018
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5. Topological phases in Bi/Sb planar and buckled honeycomb monolayers

Author

Nouri, N., Bieniek, M., Brzezinska, M., Modarresi, M., Borujeni, S. Zia, Rashedi, Gh., Wojs, A., and Potasz, P.

Subjects
Condensed Matter - Materials Science
Abstract

We investigate topological phases in two-dimensional Bi/Sb honeycomb crystals considering planar, buckled, freestanding and deposited on a substrate structures. We use the multi-orbital tight-binding model and compare results with density functional theory methods. We distinguish topological phases by calculating topological invariants, analyze edge states of systems in a ribbon geometry and by looking at their entanglement spectra. We show that weak coupling to the substrate of buckled and planar crystals is sufficient to lead to a transition to the $Z_2$ topological insulator phase. Topological crystalline insulator (TCI) phase exhibits a pair of edge states in the semi-infinite geometry and in the entanglement spectrum. Transport calculations for TCI phases show robust quantized conductance even in a presence of symmetry-breaking disorder., Comment: 6 figures

Published
2017
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6. Entanglement entropy and entanglement spectrum of Bi$_{1-x}$Sb$_{x}$ (111) bilayers

Author

Brzezińska, M., Bieniek, M., Woźniak, T., Potasz, P., and Wójs, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate topological properties of Bi$_{1-x}$Sb$_{x}$ bilayers in the (111) plane using entanglement measures. Electronic structures are studied using multi-orbital tight-binding model, with structural stability confirmed through first-principles calculations. Topologically non-trivial nature of Bi bilayer is proved by the presence of spectral flow in the entanglement spectrum. We consider topological phase transitions driven by a composition change $x$, an applied external electric field in pure Bi, and strain in pure Sb. Composition- and strain-induced phase transitions reveal a finite discontinuity in the entanglement entropy. However, this quantity remains a continuous function of electric field strength, but shows a discontinuity in the first derivative. We relate the difference in behavior of the entanglement entropy to breaking of the inversion symmetry in the last case., Comment: 8 pages, 8 figures

Published
2017
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7. Band nesting, massive Dirac Fermions and Valley Lande and Zeeman effects in transition metal dichalcogenides: a tight-binding model

Author

Bieniek, M., Korkusiński, M., Szulakowska, L., Potasz, P., Ozfidan, I., and Hawrylak, P.

Subjects
Condensed Matter - Materials Science
Abstract

We present here the minimal tight--binding model for a single layer of transition metal dichalcogenides (TMDCs) MX$_{2}$ (M--metal, X--chalcogen) which illuminates the physics and captures band nesting, massive Dirac Fermions and Valley Lande and Zeeman magnetic field effects. TMDCs share the hexagonal lattice with graphene but their electronic bands require much more complex atomic orbitals. Using symmetry arguments, a minimal basis consisting of 3 metal d--orbitals and 3 chalcogen dimer p--orbitals is constructed. The tunneling matrix elements between nearest neighbor metal and chalcogen orbitals are explicitly derived at $K$, $-K$ and $\Gamma$ points of the Brillouin zone. The nearest neighbor tunneling matrix elements connect specific metal and sulfur orbitals yielding an effective $6\times 6$ Hamiltonian giving correct composition of metal and chalcogen orbitals but not the direct gap at $K$ points. The direct gap at $K$, correct masses and conduction band minima at $Q$ points responsible for band nesting are obtained by inclusion of next neighbor Mo--Mo tunneling. The parameters of the next nearest neighbor model are successfully fitted to MX$_2$ (M=Mo, X=S) density functional (DFT) ab--initio calculations of the highest valence and lowest conduction band dispersion along $K-\Gamma$ line in the Brillouin zone. The effective two--band massive Dirac Hamiltonian for MoS$_2$, Lande g--factors and valley Zeeman splitting are obtained.

Published
2017
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8. Stability of topological properties of bismuth (111) bilayer

Author

Bieniek, M., Wozniak, T., and Potasz, P.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We investigate electronic and transport properties of bismuth (111) bilayer in the context of stability of its topological properties against different perturbations. The effects of spin-orbit coupling variations, geometry relaxation and an interaction with a substrate are considered. Transport properties are studied in the presence of Anderson disorder. Band structure calculations are performed within multi-orbital tight-binding model and density functional theory methods. A band inversion process in bismuth (111) infinite bilayer and an evolution of edge states dispersion in ribbons as a function of spin-orbit coupling strength are analyzed. A significant change of orbital composition of the conduction and valence bands during a topological phase transition is observed. A topological phase is shown to be robust when the effect of geometry relaxation is taken into account. An interaction with a substrate has similar effect to an external perpendicular electric field. The robust quantized conductance is observed when the Fermi energy lies within the bulk energy gap, where only two counter-propagating edge states are present. For energies where the Fermi level crosses more in-gap states, a scattering is possible between channels lying close in $k-$space. When the energy of edge states overlaps with bulk states, no topological protection is observed.

Published
2016
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9. Modelling cathode spots in glow discharges in the cathode boundary layer geometry

Author

Almeida, P. G. C., Benilov, M. S., and Bieniek, M. S.

Subjects
Physics - Plasma Physics
Abstract

Self-organized patterns of cathode spots in glow discharges are computed in the cathode boundary layer geometry, which is the one employed in most of the experiments reported in the literature. The model comprises conservation and transport equations of electrons and a single ion species, written in the drift-diffusion and local-field approximations, and Poisson's equation. Multiple solutions existing for the same value of the discharge current and describing modes with different configurations of cathode spots are computed by means of a stationary solver. The computed solutions are compared to their counterparts for plane-parallel electrodes, and experiments. All of the computed spot patterns have been observed in the experiment.

Published
2015

14. O and H production in a He+H2O nanosecond pulsed high-voltage plasma, probed with ps-TALIF Kinetics study using 1D fluid modelling

Author

Brisset, Alexandra Helene Marie Brigitte, Bieniek, M, Invernizzi, Laurent, Walsh, James, Hasan, M, and Wagenaars, Erik

Abstract

The spatial and temporal evolution of the density of atomic oxygen and hydrogen in a pin-to-pin atmospheric pressure plasma are measured using the Two-photon Absorption Laser Induced Fluorescence (TALIF) diagnostic with a picosecond excitation and detection system. These measurements are carried out in a mixture of 1 slm helium and 0.1%-0.25% water. The plasma is generated by tailored ns-voltage pulses (voltage rise rate ~80 V.ns-1). A 1D fluid numerical model is validated and used to study the kinetics of O and H in the discharge

Published
2022

17. VECMAtk: a scalable verification, validation and uncertainty quantification toolkit for scientific simulations

Author

Groen, D. (Derek), Arabnejad, H. (Hamid), Jancauskas, V. (Vytautas), Edeling, W.N. (Wouter), Jansson, F.R. (Fredrik), Richardson, R.A. (Robin), Lakhlili, J. (Jalal), Veen, L. (Lourens), Bosak, B. (Bartosz), Kopta, P. (Piotr), Wright, D.W. (David), Monnier, N., Karlshoefer, P. (Paul), Suleimenova, D. (Diana), Sinclair, R. (Robert), Vassaux, M. (Maxime), Nikishova, A. (Anna), Bieniek, M., Luk, O.O. (Onnie), Kulczewski, M. (Michal), Raffin, E., Crommelin, D.T. (Daan), Hoenen, O. (Olivier), Coster, D.P. (David), Piontek, T. (Tomasz), Coveney, P.V. (Peter), Groen, D. (Derek), Arabnejad, H. (Hamid), Jancauskas, V. (Vytautas), Edeling, W.N. (Wouter), Jansson, F.R. (Fredrik), Richardson, R.A. (Robin), Lakhlili, J. (Jalal), Veen, L. (Lourens), Bosak, B. (Bartosz), Kopta, P. (Piotr), Wright, D.W. (David), Monnier, N., Karlshoefer, P. (Paul), Suleimenova, D. (Diana), Sinclair, R. (Robert), Vassaux, M. (Maxime), Nikishova, A. (Anna), Bieniek, M., Luk, O.O. (Onnie), Kulczewski, M. (Michal), Raffin, E., Crommelin, D.T. (Daan), Hoenen, O. (Olivier), Coster, D.P. (David), Piontek, T. (Tomasz), and Coveney, P.V. (Peter)

Abstract

We present the VECMA toolkit (VECMAtk), a flexible software environment for single and multiscale simulations that introduces directly applicable and reusable procedures for verification, validation (V&V), sensitivity analysis (SA) and uncertainty quantication (UQ). It enables users to verify key aspects of their applications, systematically compare and validate the simulation outputs against observational or benchmark data, and run simulations conveniently on any platform from the desktop to current multi-petascale computers. In this sequel to our paper on VECMAtk which we presented last year [1] we focus on a range of functional and performance improvements that we have introduced, cover newly introduced components, and applications examples from seven different domains such as conflict modelling and environmental sciences. We also present several implemented patterns for UQ/SA and V&V, and guide the reader through one example concerning COVID-19 modelling in detail. This article is part of the theme issue 'Reliability and reproducibility in computational science: implementing verification, validation and uncertainty quantification in silico'.

Published
2021
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20. VECMAtk: a scalable verification, validation and uncertainty quantification toolkit for scientific simulations

Author

Groen, D., primary, Arabnejad, H., additional, Jancauskas, V., additional, Edeling, W. N., additional, Jansson, F., additional, Richardson, R. A., additional, Lakhlili, J., additional, Veen, L., additional, Bosak, B., additional, Kopta, P., additional, Wright, D. W., additional, Monnier, N., additional, Karlshoefer, P., additional, Suleimenova, D., additional, Sinclair, R., additional, Vassaux, M., additional, Nikishova, A., additional, Bieniek, M., additional, Luk, Onnie O., additional, Kulczewski, M., additional, Raffin, E., additional, Crommelin, D., additional, Hoenen, O., additional, Coster, D. P., additional, Piontek, T., additional, and Coveney, P. V., additional

Published
2021
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22. Cord atrophy separates early primary progressive and relapsing remitting multiple sclerosis

Author

Bieniek, M., Altmann, D.R., Davies, G.R., Ingle, G.T., Rashid, W., Sastre-Garriga, J., Thompson, A.J., and Miller, D.H.

Subjects
Multiple sclerosis -- Development and progression, Multiple sclerosis -- Diagnosis, Multiple sclerosis -- Research, Spinal muscular atrophy -- Development and progression, Spinal muscular atrophy -- Diagnosis, Spinal muscular atrophy -- Research, Health, Psychology and mental health
Published
2006

28. Probing negatively charged and neutral excitons in MoS2/hBN and hBN/MoS2/hBN van der Waals heterostructures.

Author

Jadczak, J, Kutrowska-Girzycka, J, Bieniek, M, Kazimierczuk, T, Kossacki, P, Schindler, J J, Debus, J, Watanabe, K, Taniguchi, T, Ho, C H, Wójs, A, Hawrylak, P, and Bryja, L

Subjects
HETEROSTRUCTURES, EXCITON theory, CONDUCTION bands, MONOMOLECULAR films, TRANSITION metals, MOLECULAR spectra
Abstract

High-quality van der Waals heterostructures assembled from hBN-encapsulated monolayer transition metal dichalcogenides enable observations of subtle optical and spin-valley properties whose identification was beyond the reach of structures exfoliated directly on standard SiO2/Si substrates. Here, we describe different van der Waals heterostructures based on uncapped single-layer MoS2 stacked onto hBN layers of different thicknesses and hBN-encapsulated monolayers. Depending on the doping level, they reveal the fine structure of excitonic complexes, i.e. neutral and charged excitons. In the emission spectra of a particular MoS2/hBN heterostructure without an hBN cap we resolve two trion peaks, T1 and T2, energetically split by about 10 meV, resembling the pair of singlet and triplet trion peaks (TS and TT) in tungsten-based materials. The existence of these trion features suggests that monolayer MoS2 has a dark excitonic ground state, despite having a 'bright' single-particle arrangement of spin-polarized conduction bands. In addition, we show that the effective excitonic g-factor significantly depends on the electron concentration and reaches the lowest value of −2.47 for hBN-encapsulated structures, which reveals a nearly neutral doping regime. In the uncapped MoS2 structures, the excitonic g-factor varies from −1.15 to −1.39 depending on the thickness of the bottom hBN layer and decreases as a function of rising temperature. [ABSTRACT FROM AUTHOR]

Published
2021
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31. Room temperature multi-phonon upconversion photoluminescence in monolayer semiconductor WS2.

Author

Jadczak, J., Bryja, L., Kutrowska-Girzycka, J., Kapuściński, P., Bieniek, M., Huang, Y.-S., and Hawrylak, P.

Abstract

Photon upconversion is an anti-Stokes process in which an absorption of a photon leads to a reemission of a photon at an energy higher than the excitation energy. The upconversion photoemission has been already demonstrated in rare earth atoms in glasses, semiconductor quantum wells, nanobelts, carbon nanotubes and atomically thin semiconductors. Here, we demonstrate a room temperature upconversion photoluminescence process in a monolayer semiconductor WS2, with energy gain up to 150 meV. We attribute this process to transitions involving trions and many phonons and free exciton complexes. These results are very promising for energy harvesting, laser refrigeration and optoelectronics at the nanoscale. [ABSTRACT FROM AUTHOR]

Published
2019
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43. Satisficing Newsvendor Problem with the Optimism Coefficient

Author

Bieniek Milena

Subjects
inventory control, optimization, newsvendor, optimism coefficient, Electronic computers. Computer science, QA75.5-76.95
Abstract

In this research note the satisficing newsvendor problem is considered which is defined as the maximization of the probability of exceeding the expected profit multiplied by a positive constant. This constant called optimism coefficient can be chosen by the firm’s management either based on their preference or the market conditions. The coefficient indicates whether there is a low or high optimistic decision maker. For the general demand distribution the results are significantly dependent on this coefficient.

Published
2019
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