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1. Assessing the nature of nanoscale ferroelectric domain walls in lead titanate multilayers

Author

Zatterin, Edoardo, Ondrejkovic, Petr, Bastogne, Louis, Lichtensteiger, Céline, Tovaglieri, Ludovica, Chaney, Daniel A., Sasani, Alireza, Schülli, Tobias, Bosak, Alexei, Leake, Steven, Zubko, Pavlo, Ghosez, Philippe, Hlinka, Jirka, Triscone, Jean-Marc, and Hadjimichael, Marios

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

The observation of unexpected polarisation textures such as vortices, skyrmions and merons in various oxide heterostructures has challenged the widely accepted picture of ferroelectric domain walls as being Ising-like. Bloch components in the 180{\deg} domain walls of PbTiO3 have recently been reported in PbTiO3/SrTiO3 superlattices and linked to domain wall chirality. While this opens exciting perspectives, the ubiquitous nature of this Bloch component remains to be further explored. In this work, we present a comprehensive investigation of domain walls in PbTiO3/SrTiO3 superlattices, involving a combination of first- and second-principles calculations, phase-field simulations, diffuse scattering calculations, and synchrotron based diffuse x-ray scattering. Our theoretical calculations highlight that the previously predicted Bloch polarisation in the 180{\deg} domain walls in PbTiO3/SrTiO3 superlattices might be more sensitive to the boundary conditions than initially thought and is not always expected to appear. Employing diffuse scattering calculations for larger systems we develop a method to probe the complex structure of domain walls in these superlattices via diffuse x-ray scattering measurements. Through this approach, we investigate depolarization-driven ferroelectric polarization rotation at the domain walls. Our experimental findings, consistent with our theoretical predictions for realistic domain periods, do not reveal any signatures of a Bloch component in the centres of the 180{\deg} domain walls of PbTiO3/SrTiO3 superlattices, suggesting that the precise nature of domain walls in the ultrathin PbTiO3 layers is more intricate than previously thought and deserves further attention.

Published
2024
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3. Effects of colliding laser pulses polarization on $ e^{-}e^{+} $ cascade development in extreme focusing

Author

Jirka, M. and Bulanov, S. V.

Subjects
Physics - Plasma Physics
Abstract

The onset and development of electron-positron cascade in a standing wave formed by multiple colliding laser pulses requires tight focusing in order to achieve the maximum laser intensity. There, steep spatio-temporal gradients in the laser intensity expel seed particles from the high-intensity region and thus can prevent the onset of a cascade. We show that radially polarized laser pulses ensure that the seed electrons are present at the focal plane at the moment of the highest amplitude even in the case of extreme focusing. This feature reduces the required laser power for the onset of a cascade 100 times (80 times) compared to circularly (linearly) polarized laser pulses having the same focal spot radius and duration.

Published
2024
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4. Electric-field-induced multiferroic topological solitons

Author

Chaudron, Arthur, Li, Zixin, Finco, Aurore, Marton, Pavel, Dufour, Pauline, Abdelsamie, Amr, Fischer, Johanna, Collin, Sophie, Dkhil, Brahim, Hlinka, Jirka, Jacques, Vincent, Chauleau, Jean-Yves, Viret, Michel, Bouzehouane, Karim, Fusil, Stéphane, and Garcia, Vincent

Published
2024
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7. Dean Oliver's Four Factors Revisited

Author

Poropudas, Jirka and Halme, Topi

Subjects
Statistics - Applications
Abstract

This paper studies the relationship between basketball teams' four factors and efficiency ratings as defined by Oliver (2004). The paper introduces an equation showing how a team's four factors in conjunction with its field goal and free throw percentages can be used to calculate its offensive rating. Moreover, the substitution of defensive four factors into the equation allows for the calculation of defensive and net ratings. To incorporate recent trends in the NBA, the paper updates the estimation for the relative frequency of possession-ending free throws which are needed to estimate the number of possessions from box score data. Sensitivity analysis of the offensive rating is performed in order to better understand the relative importance of the four factors. By examining partial derivatives of the offensive rating, the paper quantifies the marginal impact of small changes in the offensive and defensive four factors on offensive, defensive, and net ratings. Most importantly it is observed that the relationship between the four factors and efficiency ratings is non-linear and the individual factors' effect on the ratings depends on the values of the other factors. The paper also includes examples from NBA seasons spanning 1996-97 through 2022-23., Comment: 30 pages, 10 figures, to be submitted

Published
2023

8. Radiation from polarized vacuum in a laser-particle collision

Author

Jirka, M., Sasorov, P., and Bulanov, S. V.

Subjects
High Energy Physics - Phenomenology, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Theory, Physics - Plasma Physics
Abstract

The probability of photon emission of a charged particle traversing a strong field becomes modified if vacuum polarization is considered. This feature is important for fundamental quantum electrodynamics processes present in extreme astrophysical environments and can be studied in a collision of a charged particle with a strong laser field. We show that for today's available 700 GeV (6.5 TeV) protons and the field provided by the next generation of lasers, the emission spectra peak is enhanced due to vacuum polarization effect by 30% (suppressed by 65%) in comparison to the traditionally considered Compton process. This striking phenomenon offers a novel path to the laboratory-based manifestation of vacuum polarization., Comment: 6 pages, 1 figure

Published
2023
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9. Quantifying the effects of size exclusion on colloidal particle transport in porous media at a pore scale and column scale

Author

Changxi Wang, Jirka Šimůnek, Yuqi Liu, Zhaofei Duan, and Renkuan Liao

Subjects
Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

Abstract Colloid‐facilitated transport has been widely acknowledged as a significant contributor to surface water and groundwater pollution. Compared to water‐dissolved solutes, colloids are subject to a size exclusion effect (SEE) due to their inherent size when transported through porous media. However, only a few studies have quantitatively assessed SEE on colloid transport in porous media. In this study, we conducted dynamic observation experiments (in a quartz sand micro‐model) using a high‐speed camera and directly observed the size exclusion phenomenon of colloid transport in pores. Moreover, we further performed column experiments to quantitatively characterize the breakthrough curves of silica colloids with diameters ranging from 0.1 to 5 µm through different‐size sands. Silica colloids displayed a distinct SEE, as demonstrated by their earlier breakthroughs compared to the NaNO3 tracer. This observation served as a quantitative indicator of the SEE. The breakthrough curves were fitted using the advection‐dispersion equation to quantify this phenomenon, allowing for calculating the water saturation that is inaccessible to mobile colloids (γ). It was determined that γ exhibited a significant negative linear correlation (p < 0.01) with the average grain size (d50) of porous media. Additionally, power–law correlations were identified between γ and the colloid diameter (dp) and dp/d50. When the grain size of porous media remained below 1031 µm, an increase in the colloid diameter (from 0.1 to 5 µm) resulted in a more noticeable SEE, leading to the proportion of inaccessible pore regions to all pores increasing from 0.017 to 0.098, with this change following a power–law trend. These findings provide valuable insights into quantifying the SEE on silica colloids during transport in porous media. Furthermore, they provide theoretical support for future quantitative research on the mechanisms underlying colloid‐facilitated transport.

Published
2024
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10. Combining mathematical models and machine learning algorithms to predict the future regional-scale actual transpiration by maize

Author

Yuqi Liu, Aiwen Wang, Bo Li, Jirka Šimůnek, and Renkuan Liao

Subjects
Regional mapping, Climate change, Plant transpiration, Root water uptake, Soil water, Agriculture (General), S1-972, Agricultural industries, HD9000-9495
Abstract

Plants on the land surface play a vital role in the hydrological water cycle as they transport soil water to the atmosphere through transpiration. Root water uptake (RWU) is considered a crucial step in this process as it is the first stage of transpiration, directly determining the actual transpiration (Ta) of plants. However, accurately measuring RWU or Ta in situ poses significant challenges. Here, we establish an overall approach of combining mathematical models and machine learning algorithms to obtain high-precision (500 m×500 m) regional-scale daily Ta maps for various future climate patterns. The Hydrus-1D and AquaCrop models were employed to calculate the total RWU fluxes across the entire root zone, aiming to achieve Ta at a point scale. A machine learning model was developed using the CatBoost algorithm and environmental covariates extracted from the Google Earth Engine (GEE) platform to upscale these point-scale Ta to the regional scale. Furthermore, a total of 22 CMIP6 Earth System Models (ESMs) were evaluated, and among them, ACCESS-CM2 and ACCESS-ESM1–5 were selected for simulating future climate scenarios. Based on the established machine learning model and selected ESMs, regional-scale Ta maps were generated from 2020 to 2100 for the SSP245 and SSP585 (Shared Socioeconomic Pathways) scenarios. The results indicate that near-surface specific humidity, mean near-surface air temperature, latitude, and surface downwelling shortwave radiation are the critical factors influencing regional-scale Ta. As greenhouse gas emissions intensify and temperatures rise, regional-scale Ta is enhanced, leading to an accelerated transfer of soil water to atmospheric water. Under the SSP245 scenario, Ta increases on average by 0.55–1.16 % every 20 years, with its incremental value ranging from 7.14∙10−4 to 8.65∙10−4 cm day−1, while under the SSP585 scenario, Ta increases more significantly, achieving an average increase of 0.64–1.81 % every 20 years, with its incremental value ranging from 1.595∙10−3 to 2.821∙10−3 cm day−1. This study provides a robust integrated approach to assess the future regional-scale Ta providing valuable insights into the underlying water cycle mechanisms and regional water requirements for future climate scenarios.

Published
2024
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12. Improving Multimodal Interactive Agents with Reinforcement Learning from Human Feedback

Author

Abramson, Josh, Ahuja, Arun, Carnevale, Federico, Georgiev, Petko, Goldin, Alex, Hung, Alden, Landon, Jessica, Lhotka, Jirka, Lillicrap, Timothy, Muldal, Alistair, Powell, George, Santoro, Adam, Scully, Guy, Srivastava, Sanjana, von Glehn, Tamara, Wayne, Greg, Wong, Nathaniel, Yan, Chen, and Zhu, Rui

Subjects
Computer Science - Machine Learning, Computer Science - Human-Computer Interaction, Computer Science - Multiagent Systems
Abstract

An important goal in artificial intelligence is to create agents that can both interact naturally with humans and learn from their feedback. Here we demonstrate how to use reinforcement learning from human feedback (RLHF) to improve upon simulated, embodied agents trained to a base level of competency with imitation learning. First, we collected data of humans interacting with agents in a simulated 3D world. We then asked annotators to record moments where they believed that agents either progressed toward or regressed from their human-instructed goal. Using this annotation data we leveraged a novel method - which we call "Inter-temporal Bradley-Terry" (IBT) modelling - to build a reward model that captures human judgments. Agents trained to optimise rewards delivered from IBT reward models improved with respect to all of our metrics, including subsequent human judgment during live interactions with agents. Altogether our results demonstrate how one can successfully leverage human judgments to improve agent behaviour, allowing us to use reinforcement learning in complex, embodied domains without programmatic reward functions. Videos of agent behaviour may be found at https://youtu.be/v_Z9F2_eKk4.

Published
2022

13. Zig-zag charged domain walls in ferroelectric PbTiO$_3$

Author

Marton, Pavel, Gonçalves, Mauro A. P., Paściak, Marek, Körbel, Sabine, Chumchal, Věnceslav, Plešinger, Martin, Klíč, Antonín, and Hlinka, Jirka

Subjects
Condensed Matter - Materials Science
Abstract

We report a theoretical investigation of a charged 180$^\circ$ domain wall in ferroelectric PbTiO$_3$, compensated by randomly distributed immobile charge defects. For this we utilize atomistic shell-model simulations and continuous phase-field simulations in the framework of the Ginzburg-Landau-Devonshire model. We predict that domain walls form a zig-zag pattern and we discuss its properties in a broad interval of compensation-region widths, ranging from a couple to over a hundred nanometers.

Published
2022
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14. Measuring and modeling soil moisture and runoff at solar farms using a disconnected impervious surface approach

Author

David Mulla, Jake Galzki, Aaron Hanson, and Jirka Simunek

Subjects
Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

Abstract Ground‐mounted photovoltaic sites are often treated as impervious surfaces in stormwater permits. This ignores the pervious soils beneath and between solar arrays and leads to an overestimation of runoff. Our objective was to improve solar farm stormwater hydrology models by explicitly considering the disconnected impervious nature of solar design and site characteristics. Experimental sites established on utility scale solar farms in Colorado, Georgia, Minnesota, New York, and Oregon had perennial vegetative plantings with mean precipitation ranging from 40.6 to 124.5 cm, and soil texture ranging from loamy sand to clay. Soil moisture measurements were collected beneath arrays, under drip edges, and in the vegetated area between arrays at each site. Hydrus‐3D models for soil moisture and stormwater hydrology were developed that accounted for precipitation falling on solar panels, drip edge redistribution of rainfall, infiltration, and runoff in the pervious areas between solar arrays and beneath panels. Drip edge runoff averaged 3‐ to 10‐times incident precipitation at the New York and Minnesota sites, respectively. Root mean square error values between measured sub‐hourly soil moisture and predicted moisture for large measured single storm events averaged 0.029 across all five sites. Predicted runoff depths were strongly affected by precipitation depth, soil texture, soil profile depth, and soil bulk density. Runoff depths across the five experimental sites averaged 13%, 25%, and 45% of the 2‐, 10‐, and 100‐year design storm depths, clearly showing that these solar farms do not behave like impervious surfaces, but rather as disconnected impervious surfaces with substantial infiltration of runoff in the vegetated areas between and beneath solar arrays.

Published
2024
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15. Implementation of the Brunswick model system into the Hydrus software suite

Author

Efstathios Diamantopoulos, Jirka Simunek, and Tobias K. D. Weber

Subjects
Environmental sciences, GE1-350, Geology, QE1-996.5
Abstract

Abstract The Brunswick modular framework for modeling unsaturated soil hydraulic properties (SHP) over the full moisture range was implemented in the Hydrus suite. Users can now additionally choose between four different variants of the Brunswick model: (i) van Genuchten–Mualem (VGM), (ii) Brooks–Corey, (iii) Kosugi, and (iv) modified van Genuchten. For demonstration purposes, simulation results for two different setups, (i) bare soil evaporation and (ii) root water uptake, are presented, along with a comparison of the original VGM model and its Brunswick variant. Results show that the original VGM model underestimates the simulated cumulative evaporation and cumulative transpiration due to the inconsistent representation of the SHP in the dry moisture range. We also implemented a two‐step hydro‐PTF (pedotransfer function) into the Hydrus suite that converts the parameters of the original VGM model (from Rosetta) to the corresponding Brunswick variant. In that way, physically comprehensive simulations are ensured if no data on SHP are directly available, but information on physical soil properties (e.g., texture and bulk density) exists.

Published
2024
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16. Design of plasma shutters for improved heavy ion acceleration by ultra-intense laser pulses

Author

Matys, M., Bulanov, S. V., Kucharik, M., Jirka, M., Nikl, J., Kecova, M., Proska, J., Psikal, J., Korn, G., and Klimo, O.

Subjects
Physics - Plasma Physics
Abstract

In this work, we investigate the application of the plasma shutters for heavy ion acceleration driven by a high-intensity laser pulse. We use particle-in-cell (PIC) and hydrodynamic simulations. The laser pulse, transmitted through the opaque shutter, gains a steep-rising front and its peak intensity is locally increased at the cost of losing part of its energy. These effects have a direct influence on subsequent ion acceleration from the ultrathin target behind the shutter. In our 3D simulations of silicon nitride plasma shutter and a silver target, the maximal energy of high-Z ions increases significantly when the shutter is included for both linearly and circularly polarized laser pulses. Moreover, application of the plasma shutter for linearly polarized pulse results in focusing of ions towards the laser axis in the plane perpendicular to the laser polarization. The generated high energy ion beam has significantly lower divergence compared to the broad ion cloud, generated without the shutter. The effects of prepulses are also investigated assuming a double plasma shutter. The first shutter can withstand the assumed sub-ns prepulse (treatment of ns and ps prepulses by other techniques is assumed) and the pulse shaping occursvia interaction with the second shutter. On the basis of our theoretical findings, we formulated an approach towards designing a double plasma shutter for high-intensity and high-power laser pulses and built a prototype., Comment: 30 pages 13 figures

Published
2022
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17. Large Hall electron mobilities in head-to-head BaTiO$_3$-domain walls

Author

Beccard, Henrik, Kirbus, Benjamin, Beyreuther, Elke, Rüsing, Michael, Bednyakov, Petr, Hlinka, Jirka, and Eng, Lukas M.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Strongly charged head-to-head (H2H) domain walls (DWs) that are purposely engineered along the [110] crystallographic orientation into ferroelectric BaTiO$_3$ single crystals have been proposed as novel 2-dimensional electron gases (2DEGs) due to their significant domain wall conductivity (DWC). Here, we quantify these 2DEG properties through dedicated Hall-transport measurements in van-der-Pauw 4-point geometry at room temperature, finding the electron mobility to reach around 400~cm$^2$(Vs)$^{-1}$, while the 2-dimensional charge density amounts to ~7$\times$10$^3$cm$^{-2}$. We underline the necessity to take account of thermal and geometrical-misalignment offset voltages by evaluating the Hall resistance under magnetic-field sweeps, since otherwise dramatic errors of several hundred percent in the derived mobility and charge density values can occur. Apart from the specific characterization of the conducting BaTiO$_3$ DW, we propose the method as an easy and fast way to quantitatively characterize ferroic conducting DWs, complementary to previously proposed scanning-probe-based Hall-potential analyses., Comment: 8 pages, 4 figures; with included supporting information (4 pages, 5 figures)

Published
2022
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18. On the new and old physics in the interaction of a radiating electron with the extreme electromagnetic field

Author

Jirka, M., Sasorov, P. V., and Bulanov, S. V.

Subjects
High Energy Physics - Phenomenology, Physics - Plasma Physics
Abstract

We show that an all-optical configuration of the laser-electron collision in the $\lambda^{3}$ configuration based on 10 PW-class lasers presents a viable platform for reaching the range of parameters where a perturbative QED in strong external electromagnetic field breaks. This case is contingently referred to as a case of the nonperturbative QED; and this range of parameters is the intriguing goal from an experimental point of view because of a possible manifestation of a new physics of the interaction of a highly radiating particle with a strong electromagnetic field. We show that the strong field region can be reached by the electrons having the initial energy higher than 50 GeV. Our theoretical considerations are in agreement with three-dimensional particle-in-cell simulations. While increasing of the electron energy raises the number of electrons experiencing the strong field region, the observable signature of photon emission radiative correction in the strong field is expected to fade out when the electron energy surpasses the optimal value. This threshold of electron energy is identified and the parameters for achieving the nonperturbative limit of QED are provided., Comment: 6 pages, 2 figures

Published
2022
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19. Highly Radiating Charged Particles in a Strong Electromagnetic Field

Author

Sasorov, P. V., Jirka, M., and Bulanov, S. V.

Subjects
High Energy Physics - Phenomenology, Physics - Plasma Physics
Abstract

We consider highly radiating ultra-relativistic electrons in a strong external electromagnetic field. High intensity radiative losses and consequent $e^+e^-$-pair production, appearing in the frame of quantum electrodynamics, determine indirectly mass operator of electrons in the strong field. We calculate a leading term of the mass operator at asymptotically high energies of electrons in a strong constant field. We do not use any perturbation theory based on a low ratio of this mass operator to the electron mass $m_e$, but only the original small parameter of quantum electrodynamics, the fine structure constant, $\alpha$. The analogous %but less nontrivial result is obtained for the polarization operator for photon propagator. These results resolve at least partially a very long-lasted controversy originating from traditional and straightforward application of perturbative approaches for description of highly radiating ultra-relativistic charged particles in a very strong electromagnetic fields., Comment: 6 pages; several issues further clarified and explained

Published
2022

21. High-skilled precarity: The situation of Ukrainian refugees in the Czech Republic and Poland

Author

Luděk Jirka, Mateusz Kamionka, and Lucie Macková

Subjects
ukraine, refugees, temporary protection, low-skilled employability, war in ukraine, precarious position, Sociology (General), HM401-1281
Abstract

The situation of Ukrainian refugees in the Czech Republic and Poland significantly differs from their Syrian counterparts in terms of acceptance. Ukrainians were offered temporary protection and this is associated with receiving humanitarian aid, housing, social and health insurance and free entrance on the labor market and all levels of education. They were also widely accepted by public, regional administrations and non-governmental organizations. However, in spite of their dispositions, they still struggle with livelihood in both countries due to weaker integration policies. This article is based on semi-structural interviews with fifty-seven Ukrainian refugees in the Czech Republic and Poland, and it shows that despite their prospective dispositions, educational level and general acceptance, they often work in low-skilled jobs due to weak language proficiency and this hinders their adaptation. Thus they often fall into a precarious position although some of them may still feel satisfied as holders of temporary protection.

Published
2024
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22. Structural and mechanistic insights into activation of the human RNA ligase RTCB by Archease

Author

Janina Lara Gerber, Suria Itzel Morales Guzmán, Lorenz Worf, Petra Hubbe, Jürgen Kopp, and Jirka Peschek

Subjects
Science
Abstract

Abstract RNA ligases of the RTCB-type play an essential role in tRNA splicing, the unfolded protein response and RNA repair. RTCB is the catalytic subunit of the pentameric human tRNA ligase complex. RNA ligation by the tRNA ligase complex requires GTP-dependent activation of RTCB. This active site guanylylation reaction relies on the activation factor Archease. The mechanistic interplay between both proteins has remained unknown. Here, we report a biochemical and structural analysis of the human RTCB-Archease complex in the pre- and post-activation state. Archease reaches into the active site of RTCB and promotes the formation of a covalent RTCB-GMP intermediate through coordination of GTP and metal ions. During the activation reaction, Archease prevents futile RNA substrate binding to RTCB. Moreover, monomer structures of Archease and RTCB reveal additional states within the RNA ligation mechanism. Taken together, we present structural snapshots along the reaction cycle of the human tRNA ligase.

Published
2024
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24. Assessing the Ubiquity of Bloch Domain Walls in Ferroelectric Lead Titanate Superlattices

Author

Edoardo Zatterin, Petr Ondrejkovic, Louis Bastogne, Céline Lichtensteiger, Ludovica Tovaglieri, Daniel A. Chaney, Alireza Sasani, Tobias Schülli, Alexei Bosak, Steven Leake, Pavlo Zubko, Philippe Ghosez, Jirka Hlinka, Jean-Marc Triscone, and Marios Hadjimichael

Subjects
Physics, QC1-999
Abstract

The observation of unexpected polarization textures such as vortices, skyrmions, and merons in various oxide heterostructures has challenged the widely accepted picture of ferroelectric domain walls as being Ising-like. Bloch components in the 180° domain walls of PbTiO_{3} have recently been reported in PbTiO_{3}/SrTiO_{3} superlattices and linked to domain wall chirality. While this opens exciting perspectives, the ubiquity of this Bloch component remains to be further explored. In this work, we present a comprehensive investigation of domain walls in PbTiO_{3}/SrTiO_{3} superlattices, involving a combination of first- and second-principles calculations, phase-field simulations, diffuse scattering calculations, and synchrotron-based diffuse x-ray scattering. Our theoretical calculations highlight that the previously predicted Bloch polarization in the 180° domain walls in PbTiO_{3}/SrTiO_{3} superlattices might be more sensitive to the boundary conditions than initially thought and is not always expected to appear. Employing diffuse scattering calculations for larger systems, we develop a method to probe the complex structure of domain walls in these superlattices via diffuse x-ray scattering measurements. Through this approach, we investigate depolarization-driven ferroelectric polarization rotation at the domain walls. Our experimental findings, consistent with our theoretical predictions for realistic domain periods, do not reveal any signatures of a Bloch component in the centers of the 180° domain walls of PbTiO_{3}/SrTiO_{3} superlattices, suggesting that the precise nature of domain walls in the ultrathin PbTiO_{3} layers is more intricate than previously thought and deserves further attention.

Published
2024
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25. WaCoDiS: Automated Earth Observation Data Processing within an Event-Driven Architecture for Water Monitoring

Author

Drost, Sebastian, Vogt, Arne, Danowski-Buhren, Christian, Jirka, Simon, Kirstein, Verena, Pakzad, Kian, and Rieke, Matthes

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Software Engineering
Abstract

To ensure an efficient and environmentally friendly water resource management, water management associations need means for efficient water monitoring as well as novel strategies to reduce the pollution of surface and ground water. Traditionally, water management associations operate large sensor networks to suffice their needs for hydrological and meteorological measurement data to monitor and model physical processes within catchments. Implementing a comprehensive monitoring system often suffers from sparse coverage of in-situ data. Due to the evolvement of the Copernicus satellite platforms, the broader availability of satellite data provides a great potential for deriving complementary information from Earth Observation data. Although the number of satellite data platforms that provide online processing environments is growing, it is still a big challenge to integrate those platforms into traditional workflows of users from environmental domains such as hydrology. Thus, in this paper, we introduce a software architecture to facilitate the generation of Earth Observation information targeted towards hydrology. The presented WaCoDiS System comprises several microservices as well standardized interfaces that enable a platform-independent processing of satellite data. First, we discuss the contribution of Earth Observation data to water monitoring and derive several challenges regarding the facilitation of satellite data processing. We then describe our system design with a brief overview about the different system components which form an automated processing pipeline. The suitability of our system is proven as part of a pre-operational deployment for a German water management association. In addition, we demonstrate how our system is capable of integrating satellite data platforms, using the Copernicus Data and Exploitation Platform - Deutschland (CODE-DE) as a reference example.

Published
2021
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30. Digital tools for knowledge exchange and sustainable public food procurement in community kindergartens: A case study in Słupsk, Poland

Author

Joanna Suchomska, Wojciech Goszczyński, Pia Laborgne, Carlos Cámara-Menoyo, Andrea Pierce, Michał Wróblewski, Joao Porto de Albuquerque, and Simon Jirka

Subjects
Sustainable Public Food Procurement (SPFP), Urban Living Labs (ULL), knowledge co-creation, technology innovation, community institutions, hybridisation of relationships, Human settlements. Communities, HT51-65
Abstract

This article presents a case study on the experimental co-creation process of a digital platform supporting Sustainable Public Food Procurement (SPFP) in public kindergartens in a medium-sized city in Poland. The organisation of SPFP requires a dedicated technological infrastructure to ensure the information flow among food producers, kindergarten employees, children and parents. To this end, a digital platform was designed to enable contact, assessment of food quality and food procurement environmental impact, and the communication of needs and problems among all the actors involved in the food procurement system for kindergartens. The article also discusses the results of the field research and the method of Urban Living Labs, highlighting the key challenges faced by those seeking to combine knowledge about food and the natural environment with public food procurement. The principal difficulties include the availability, accessibility and possible application of data on the environmental costs of food production, the individualisation of needs and motivations related to public catering in educational facilities, and the specific nature of the public sector responsible for public food procurement.

Published
2024
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31. HMSE: A tool for coupling MODFLOW and HYDRUS-1D computer programs

Author

Mateusz Pawlowicz, Bartosz Balis, Adam Szymkiewicz, Jirka Šimůnek, Anna Gumuła-Kawęcka, and Beata Jaworska-Szulc

Subjects
Groundwater, HYDRUS-1D, MODFLOW, Model coupling, Kubernetes, Computer software, QA76.75-76.765
Abstract

A new software HMSE has been developed to facilitate external coupling between two well-known programs for subsurface flow modeling: MODFLOW-2005 (saturated zone flow) and HYDRUS-1D (unsaturated zone flow). Two coupling schemes have been implemented. In the first case the groundwater recharge flux is calculated by HYDRUS-1D assuming a fixed water table position and then passed to MODFLOW input files. In the second case the water table position in HYDRUS-1D is updated periodically using the solution from MODFLOW. HMSE can be deployed in 3 modes: local, Docker and Kubernetes cluster. A web-based interface is provided to configure and run the simulation in all three cases. The software is applied to simulate groundwater table fluctuations observed in a shallow aquifer during three years.

Published
2024
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32. Transition between large and small electron polaron at neutral ferroelectric domain walls in BiFeO$_3$

Author

Körbel, Sabine, Hlinka, Jirka, and Sanvito, Stefano

Subjects
Condensed Matter - Materials Science, 82D45
Abstract

Ferroelectric domain walls are planes within an insulating material that can accumulate and conduct charge carriers, hence the interaction of the domain walls with the charge carriers can be important for photovoltaic and other electronic applications. By means of first principles calculations we predict a transition from a large two-dimensional electron polaron to a small polaron at the domain walls at a critical electron density, with polaron signatures in optical absorption and photoluminescence. We find that large and small polarons at the domain walls create different absorption peaks within the band gap that are not present in the case of pristine domain walls. These are an extended Drude peak in the case of large electron or hole polarons and a narrow mid-gap peak in the case of the small electron polaron., Comment: The main finding of the article, the transition between a large and a small electron polaron as a function of the polaron density, is an artefact, which resulted from applying an unsuitable methodology for modeling diluted polarons. This affects results depicted in Figs. 3, 4, 5, and 6

Published
2021

33. Problematic transition from residence permit for the purpose of studies to having an employment: Non-EU foreign students from post-Soviet countries and Czech immigration policy

Author

Luděk Jirka

Subjects
student migration, czech republic, non-eu international students, residence permit, migration policy, Education (General), L7-991, Sociology (General), HM401-1281
Abstract

The Czech Republic introduced a migration policy in 1999, and one of the newly emerged residence permits was for the purpose of studies. It allowed non-EU foreign nationals to study in the Czech Republic. However, its rationale was also associated with restricting the permanent settlement of non-EU international students in the country. The policy changed in 2006. However, even up to 2019, it remained challenging for international students to secure permanent residency. In particular, students from post-Soviet countries wanted to settle permanently and had to find a job before graduation to secure their stay. In 2019, the Czech Republic introduced a transitional period for non-EU foreign graduates, enabling them to stay in the country for nine months to find a job. However, despite the advantages, this was late compared to other European countries. This article discusses the situation of non-EU international students before 2019 and the difficulties they experienced due to the complicated transition process from residence permit for the purpose of studies to employee status

Published
2023
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34. What and how can we learn from complex global problems for antimicrobial resistance policy? A comparative study combining historical and foresight approaches

Author

Emma Pitchforth, Ali Gemma-Clare, Elta Smith, Jirka Taylor, Tim Rayner, Catherine Lichten, Camila d'Angelo, Cristoph Gradmann, Virginia Berridge, Adam Bertscher, and Kasim Allel

Subjects
Antimicrobial resistance, Climate change, Tobacco control, Policy challenges, Policy design, Microbiology, QR1-502
Abstract

ABSTRACT: Objectives: To (i) develop a methodology for using historical and comparative perspectives to inform policy and (ii) provide evidence for antimicrobial-resistance (AMR) policymaking by drawing on lessons from climate change and tobacco control. Methods: Using a qualitative design, we systematically examined two other complex, large-scale policy issues—climate change and tobacco control—to identify what relevance to AMR can be learned from how these issues have evolved over time. During 2018–2020, we employed a five-stage approach to conducting an exploratory study involving a review of secondary historical analysis, identification of drivers of change, prioritisation of the identified drivers, scenario generation and elicitation of possible policy responses. We sought to disrupt more ‘traditional’ policy and research spaces to create an alternative where, stimulated by historical analysis, academics (including historians) and policymakers could come together to challenge norms and practices and think creatively about AMR policy design. Results: An iterative process of analysis and engagement resulted in lessons for AMR policy concerning persistent evidence gaps and uncertainty, the need for cross-sector involvement and a collective effort through global governance, the demand for new interventions through more investment in research and innovation, and recognising the dynamic relationship between social change and policy to change people's attitudes and behaviours are crucial towards tackling AMR. Conclusion: We draw on new methodological lessons around the pragmatism of future- and policy-oriented approaches incorporating robust historical and comparative analysis. The study demonstrates proof of concept and offers a reproducible method to advance further methodology, including transferrable policies that could tackle health problems, such as AMR.

Published
2023
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35. Diagnosis of sarcopenia on thoracic computed tomography and its association with postoperative survival after anatomic lung cancer resection

Author

Simone Kaltenhauser, Christoph Niessen, Florian Zeman, Christian Stroszczynski, Niels Zorger, Jirka Grosse, Christian Großer, Hans-Stefan Hofmann, and Tobias Robold

Subjects
Medicine, Science
Abstract

Abstract Computer tomography-derived skeletal muscle index normalized for height in conjunction with muscle density enables single modality-based sarcopenia assessment that accounts for all diagnostic criteria and cutoff recommendations as per the widely accepted European consensus. Yet, the standard approach to quantify skeletal musculature at the third lumbar vertebra is limited for certain patient groups, such as lung cancer patients who receive chest CT for tumor staging that does not encompass this lumbar level. As an alternative, this retrospective study assessed sarcopenia in lung cancer patients treated with curative intent at the tenth thoracic vertebral level using appropriate cutoffs. We showed that skeletal muscle index and radiation attenuation at level T10 correlate well with those at level L3 (Pearson’s R = 0.82 and 0.66, p

Published
2023
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36. Parasite inversion for determining the coefficients and time‐validity of Philip's two‐term infiltration equation

Author

Jaiswal, Parakh, Gao, Yifu, Rahmati, Mehdi, Vanderborght, Jan, Šimůnek, Jirka, Vereecken, Harry, and Vrugt, Jasper A

Subjects
Physical Geography and Environmental Geoscience, Soil Sciences, Crop and Pasture Production, Environmental Engineering
Abstract

Many different equations have been proposed to describe quantitatively one-dimensional soil water infiltration. The unknown coefficients of these equations characterize soil hydraulic properties and may be estimated from a n record, (Formula presented.), of cumulative infiltration measurements using curve fitting techniques. The two-term infiltration equation, (Formula presented.), of Philip has been widely used to describe measured infiltration data. This function enjoys a solid mathematical–physical underpinning and admits a closed-form solution for the soil sorptivity, S [L T−1/2], and multiple, c [−], of the saturated hydraulic conductivity, Ks [L T−1]. However, Philip's two-term equation has a limited time validity, tvalid [T], and thus cumulative infiltration data, (Formula presented.), beyond (Formula presented.) will corrupt the estimates of S and Ks. This paper introduces a novel method for estimating S, c, Ks, and tvalid of Philip's two-term infiltration equation. This method, coined parasite inversion, use as vehicle Parlange's three-parameter infiltration equation. As prerequisite to our method, we present as secondary contribution an exact, robust and efficient numerical solution of Parlange's infiltration equation. This solution admits Bayesian parameter estimation with the DiffeRential Evolution Adaptive Metropolis (DREAM) algorithm and yields as byproduct the marginal distribution of Parlange's β parameter. We evaluate our method for 12 USDA soil types using synthetic infiltration data simulated with HYDRUS-1D. An excellent match is observed between the inferred values of S and Ks and their “true” values known beforehand. Furthermore, our estimates of c and tvalid correlate well with soil texture, corroborate linearity of the (Formula presented.) relationship for (Formula presented.), and fall within reported ranges. A cumulative vertical infiltration of about 2.5 cm may serve as guideline for the time-validity of Philip's two-term infiltration equation.

Published
2022

37. Relativistic plasma aperture for laser intensity enhancement

Author

Jirka, M., Klimo, O., and Matys, M.

Subjects
Physics - Plasma Physics
Abstract

A substantial increase in local laser intensity is observed in the near field behind a plasma shutter.This increase is caused by the interference of the diffracted light at the relativistic plasma aperture and it is studied both analytically and using numerical simulations. This effect is only accessible in the regime of relativistically induced transparency and thus it requires a careful choice of laser and target parameters. The theoretical estimates for the maximum field strength and its spatial location as a function of target and laser parameters are provided and compared with simulation results. Our full 3D Particle-in-Cell simulations indicate that the laser intensity may be increased roughly by an order of magnitude improving the feasibility of strong field QED research with the present generation of lasers.

Published
2021
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38. Subterahertz collective dynamics of polar vortices

Author

Li, Qian, Stoica, Vladimir A., Paściak, Marek, Zhu, Yi, Yuan, Yakun, Yang, Tiannan, McCarter, Margaret R., Das, Sujit, Yadav, Ajay K., Park, Suji, Dai, Cheng, Lee, Hyeon Jun, Ahn, Youngjun, Marks, Samuel D., Yu, Shukai, Kadlec, Christelle, Sato, Takahiro, Hoffmann, Matthias C., Chollet, Matthieu, Kozina, Michael E., Nelson, Silke, Zhu, Diling, Walko, Donald A., Lindenberg, Aaron M., Evans, Paul G., Chen, Long-Qing, Ramesh, Ramamoorthy, Martin, Lane W., Gopalan, Venkatraman, Freeland, John W., Hlinka, Jirka, and Wen, Haidan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

The collective dynamics of topological structures have been of great interest from both fundamental and applied perspectives. For example, the studies of dynamical properties of magnetic vortices and skyrmions not only deepened the understanding of many-body physics but also led to potential applications in data processing and storage. Topological structures constructed from electrical polarization rather than spin have recently been realized in ferroelectric superlattices, promising for ultrafast electric-field control of topological orders. However, little is known about the dynamics of such complex extended nanostructures which in turn underlies their functionalities. Using terahertz-field excitation and femtosecond x-ray diffraction measurements, we observe ultrafast collective polarization dynamics that are unique to polar vortices, with orders of magnitude higher frequencies and smaller lateral size than those of experimentally realized magnetic vortices. A previously unseen soft mode, hereafter referred to as a vortexon, emerges as transient arrays of nanoscale circular patterns of atomic displacements, which reverse their vorticity on picosecond time scales. Its frequency is significantly reduced at a critical strain, indicating a condensation of structural dynamics. First-principles-based atomistic calculations and phase-field modeling reveal the microscopic atomic arrangements and frequencies of the vortex modes. The discovery of subterahertz collective dynamics in polar vortices opens up opportunities for applications of electric-field driven data processing in topological structures with ultrahigh speed and density.

Published
2021
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39. Architecture of nanoscale ferroelectric domains in GaMo4S8

Author

Neuber, Erik, Milde, Peter, Butykai, Adam, Bordacs, Sandor, Nakamura, Hiroyuki, Waki, Takeshi, Tabata, Yoshikazu, Geirhos, Korbinian, Lunkenheimer, Peter, Kézsmárki, Istvan, Ondrejkovic, Petr, Hlinka, Jirka, and Eng, Lukas M.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Local-probe imaging of the ferroelectric domain structure and auxiliary bulk pyroelectric measurements were conducted at low temperatures with the aim to clarify the essential aspects of the orbitally driven phase transition in GaMo4S8, a lacunar spinel crystal that can be viewed as a spin-hole analogue of its GaV4S8 counterpart. We employed multiple scanning probe techniques combined with symmetry and mechanical compatibility analysis to uncover the hierarchical domain structures, developing on the 10-100 nm scale. The identified domain architecture involves a plethora of ferroelectric domain boundaries and junctions, including primary and secondary domain walls in both electrically neutral and charged configurations, and topological line defects transforming neutral secondary walls into two oppositely charged ones., Comment: This is the Accepted Manuscript version of an article accepted for publication in Journal of Physics: Condensed Matter. IOP Publishing Ltd is not responsible for any errors or omissions in this version of the manuscript or any version derived from it. The Version of Record is available online at https://doi.org/10.1088/1361-648X/aae448

Published
2021
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41. Reaching the high laser intensity by a radiating electron

Author

Jirka, M., Sasorov, P., Bulanov, S. S., Korn, G., Rus, B., and Bulanov, S. V.

Subjects
Physics - Plasma Physics
Abstract

Interaction of an electron with the counter-propagating electromagnetic wave is studied theoretically and with the particle-in-cell simulations in the regime of quantum radiation reaction. We find the electron energy in the center of the laser pulse, as it is a key factor for testing the non-linear quantum electrodynamics vacuum properties in the laser-electron collision in the regime of multi-photon Compton scattering and vacuum Cherenkov radiation. With multiparametric analysis we provide the conditions on electron initial energy for reaching the center of the laser pulse and emitting Cherenkov photons.

Published
2020
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42. Scaling laws for direct laser acceleration in a radiation-reaction dominated regime

Author

Jirka, M., Vranic, M., Grismayer, T., and Silva, L. O.

Subjects
Physics - Plasma Physics
Abstract

We study electron acceleration within a sub-critical plasma channel irradiated by an ultra-intense laser pulse ($a_0>100$ or $I>10^{22}~\mathrm{W/cm^2}$). In this regime, radiation reaction significantly alters the electron dynamics. This has an effect not only on the maximum attainable electron energy but also on the phase-matching process between betatron motion and electron oscillations in the laser field. Our study encompasses analytical description, test-particle calculations and 2-dimensional particle-in-cell simulations. We show single-stage electron acceleration to multi-GeV energies within a 0.5 mm-long channel and provide guidelines how to obtain energies beyond 10 GeV using optimal initial configurations. We present the required conditions in a form of explicit analytical scaling laws that can be applied to plan the future electron acceleration experiments.

Published
2020
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43. BlueFlood: Concurrent Transmissions for Multi-Hop Bluetooth 5 -- Modeling and Evaluation

Author

Nahas, Beshr Al, Escobar-Molero, Antonio, Klaue, Jirka, Duquennoy, Simon, and Landsiedel, Olaf

Subjects
Computer Science - Networking and Internet Architecture
Abstract

Bluetooth is an omnipresent technology, available on billions of devices today. While it has been traditionally limited to peer-to-peer communication and star networks, the recent Bluetooth Mesh standard extends it to multi-hop networking. In addition, the Bluetooth 5 standard introduces new modes to allow for increased reliability. In this paper, we evaluate the feasibility of concurrent transmissions (CT) in Bluetooth via modeling and controlled experiments and then devise an efficient network-wide data dissemination protocol, BlueFlood, based on CT for multi-hop Bluetooth networks. First, we model and analyze how CT distorts the received waveform and characterize the Bit Error Rate of a Frequency-Shift Keying receiver to show that CT is feasible over Bluetooth. Second, we verify our analytic results with a controlled experimental study of CT over Bluetooth PHY. Third, we present BlueFlood, a fast and efficient network-wide data dissemination in multi-hop Bluetooth networks. In our experimental evaluation, in two testbeds deployed in university buildings, we show that BlueFlood achieves 99.9% end-to-end delivery ratio with a duty-cycle of 0.4% for periodic dissemination of advertising packets of 38 bytes with 200 milliseconds intervals at 2 Mbps. Moreover, we show that BlueFlood can be received by off-the-shelf devices such as smartphones, paving a seamless integration with existing technologies., Comment: Extension of conference publication: https://dl.acm.org/doi/abs/10.5555/3324320.3324336 In Section 3.2.4, we have a new numerical analysis that better aligns to the micro evaluation. Later in Section 3.4, we discuss the practical implications of the feasibility study

Published
2020

46. Reaching high laser intensity by a radiating electron

Author

Jirka, M, Sasorov, P, Bulanov, SS, Korn, G, Rus, B, and Bulanov, SV

Subjects
Mathematical Sciences, Physical Sciences, Chemical Sciences, General Physics
Abstract

The question of whether an electron radiating its energy away during the interaction with a laser can reach the region of highest intensity with energy high enough to make a number of different phenomena observable is one of the most studied and most important in strong field quantum electrodynamics. Here a simple analytical estimate for an average electron energy evolution is proposed and benchmarked against particle-in-cell simulations. Furthermore, these results are used to estimate the electron and laser pulse properties required to make vacuum Cherenkov emission observable.

Published
2021

47. Protomer alignment modulates specificity of RNA substrate recognition by Ire1.

Author

Li, Weihan, Crotty, Kelly, Garrido Ruiz, Diego, Voorhies, Mark, Rivera, Carlos, Sil, Anita, Mullins, R Dyche, Jacobson, Matthew P, Peschek, Jirka, and Walter, Peter

Subjects
Ire1, RNA biology, S. cerevisiae, S. pombe, biochemistry, chemical biology, enzymatic substrate specificity, unfolded protein response, Membrane Glycoproteins, Molecular Dynamics Simulation, Phylogeny, Protein Subunits, Protein-Serine-Threonine Kinases, RNA, RNA Splicing, Ribonucleases, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Schizosaccharomyces, Sequence Alignment, Substrate Specificity, Genetics, 1.1 Normal biological development and functioning, Biochemistry and Cell Biology
Abstract

The unfolded protein response (UPR) maintains protein folding homeostasis in the endoplasmic reticulum (ER). In metazoan cells, the Ire1 branch of the UPR initiates two functional outputs-non-conventional mRNA splicing and selective mRNA decay (RIDD). By contrast, Ire1 orthologs from Saccharomyces cerevisiae and Schizosaccharomyces pombe are specialized for only splicing or RIDD, respectively. Previously, we showed that the functional specialization lies in Ire1's RNase activity, which is either stringently splice-site specific or promiscuous (Li et al., 2018). Here, we developed an assay that reports on Ire1's RNase promiscuity. We found that conversion of two amino acids within the RNase domain of S. cerevisiae Ire1 to their S. pombe counterparts rendered it promiscuous. Using biochemical assays and computational modeling, we show that the mutations rewired a pair of salt bridges at Ire1 RNase domain's dimer interface, changing its protomer alignment. Thus, Ire1 protomer alignment affects its substrates specificity.

Published
2021

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