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40,714 results on '"Zahn A"'

1. Quantum effects in near-extremal charged black hole spacetimes

Author

Alberti, Maria and Zahn, Jochen

Subjects
General Relativity and Quantum Cosmology
Abstract

We compute the semiclassical current and stress-energy fluxes both at the event and Cauchy horizon of a near-extremal Reissner-Nordstr\"om black hole. We consider a minimally-coupled, massless, charged scalar field in the Unruh state, describing an evaporating black hole. The near-extremal domain allows for an analytical treatment of the scattering problem of the Boulware modes both in the interior and exterior regions. We present this and explicit analytical expressions for $\langle j_v\rangle $, $\langle T_{vv}\rangle$ at the horizons, as well as estimates for $\langle j_u\rangle$ and $\langle T_{uu}\rangle $. We cross-check the analytical results numerically by bringing the radial Klein-Gordon equation into the form of the confluent Heun equation. Inserting these expectation values as sources to the Einstein-Maxwell equations, we find that at least in the near-extremal regime of small field charge, quantum effects drive the black hole interior away from extremality. Our work generalizes the known results for the real scalar field [Phys. Rev. D 104, 024066] and is in agreement with recent work on charged fields in expanding Reissner-Nordstr\"om deSitter universes [Phys. Rev. Lett. 127, 231301, Phys. Rev. D 104, 025009].

Published
2025

2. Probabilistic Day-Ahead Battery Scheduling based on Mixed Random Variables for Enhanced Grid Operation

Author

Pinter, Janik, Zahn, Frederik, Beichter, Maximilian, Mikut, Ralf, and Hagenmeyer, Veit

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control
Abstract

The increasing penetration of renewable energy sources introduces significant challenges to power grid stability, primarily due to their inherent variability. A new opportunity for grid operation is the smart integration of electricity production combined with battery storages in residential buildings. This study explores how residential battery systems can aid in stabilizing the power grid by flexibly managing deviations from forecasted residential power consumption and PV generation. The key contribution of this work is the development of an analytical approach that enables the asymmetric allocation of quantified power uncertainties between a residential battery system and the power grid, introducing a new degree of freedom into the scheduling problem. This is accomplished by employing mixed random variables - characterized by both continuous and discrete events - to model battery and grid power uncertainties. These variables are embedded into a continuous stochastic optimization framework, which computes probabilistic schedules for battery operation and power exchange with the grid. Test cases demonstrate that the proposed framework can be used effectively to reduce and quantify grid uncertainties while minimizing electricity costs. It is also shown that residential battery systems can be actively used to provide flexibility during critical periods of grid operation. Overall, this framework empowers prosumers to take an active role in grid stabilization, contributing to a more resilient and adaptive energy system., Comment: 12 pages, 7 figures, submitted to IREP 2025 Symposium

Published
2024

3. Imaging and structure analysis of ferroelectric domains, domain walls, and vortices by scanning electron diffraction

Author

Ludacka, Ursula, He, Jiali, Qin, Shuyu, Zahn, Manuel, Christiansen, Emil Frang, Hunnestad, Kasper A, Zhang, Xinqiao, Yan, Zewu, Bourret, Edith, Kézsmárki, István, van Helvoort, Antonius TJ, Agar, Joshua, and Meier, Dennis

Subjects
Macromolecular and Materials Chemistry, Quantum Physics, Chemical Sciences, Engineering, Physical Sciences, Materials Engineering, Theoretical and computational chemistry, Materials engineering, Condensed matter physics
Abstract

Direct electron detectors in scanning transmission electron microscopy give unprecedented possibilities for structure analysis at the nanoscale. In electronic and quantum materials, this new capability gives access to, for example, emergent chiral structures and symmetry-breaking distortions that underpin functional properties. Quantifying nanoscale structural features with statistical significance, however, is complicated by the subtleties of dynamic diffraction and coexisting contrast mechanisms, which often results in a low signal-to-noise ratio and the superposition of multiple signals that are challenging to deconvolute. Here we apply scanning electron diffraction to explore local polar distortions in the uniaxial ferroelectric Er(Mn,Ti)O3. Using a custom-designed convolutional autoencoder with bespoke regularization, we demonstrate that subtle variations in the scattering signatures of ferroelectric domains, domain walls, and vortex textures can readily be disentangled with statistical significance and separated from extrinsic contributions due to, e.g., variations in specimen thickness or bending. The work demonstrates a pathway to quantitatively measure symmetry-breaking distortions across large areas, mapping structural changes at interfaces and topological structures with nanoscale spatial resolution.

Published
2024

4. Reversible long-range domain wall motion in an improper ferroelectric

Author

Zahn, M., Müller, A. M., Kelley, K. P., Neumayer, S. M., Kalinin, S. V., Kézsmarki, I., Fiebig, M., Lottermoser, Th., Domingo, N., Meier, D., and Schultheiß, J.

Subjects
Condensed Matter - Materials Science
Abstract

Reversible ferroelectric domain wall movements beyond the 10 nm range associated with Rayleigh behavior are usually restricted to specific defect-engineered systems. Here, we demonstrate that such long-range movements naturally occur in the improper ferroelectric ErMnO3 during electric-field-cycling. We study the electric-field-driven motion of domain walls, showing that they readily return to their initial position after having travelled distances exceeding 250 nm. By applying switching spectroscopy band-excitation piezoresponse force microscopy, we track the domain wall movement with nanometric spatial precision and analyze the local switching behavior. Phase field simulations show that the reversible long-range motion is intrinsic to the hexagonal manganites, linking it to their improper ferroelectricity and topologically protected structural vortex lines, which serve as anchor point for the ferroelectric domain walls. Our results give new insight into the local dynamics of domain walls in improper ferroelectrics and demonstrate the possibility to reversibly displace domain walls over much larger distances than commonly expected for ferroelectric systems in their pristine state, ensuring predictable device behavior for applications such as tunable capacitors or sensors

Published
2024

5. A large collection of bioinformatics question-query pairs over federated knowledge graphs: methodology and applications

Author

Bolleman, Jerven, Emonet, Vincent, Altenhoff, Adrian, Bairoch, Amos, Blatter, Marie-Claude, Bridge, Alan, Duvaud, Severine, Gasteiger, Elisabeth, Kuznetsov, Dmitry, Moretti, Sebastien, Michel, Pierre-Andre, Morgat, Anne, Pagni, Marco, Redaschi, Nicole, Zahn-Zabal, Monique, de Farias, Tarcisio Mendes, and Sima, Ana Claudia

Subjects
Computer Science - Databases, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval
Abstract

Background. In the last decades, several life science resources have structured data using the same framework and made these accessible using the same query language to facilitate interoperability. Knowledge graphs have seen increased adoption in bioinformatics due to their advantages for representing data in a generic graph format. For example, yummydata.org catalogs more than 60 knowledge graphs accessible through SPARQL, a technical query language. Although SPARQL allows powerful, expressive queries, even across physically distributed knowledge graphs, formulating such queries is a challenge for most users. Therefore, to guide users in retrieving the relevant data, many of these resources provide representative examples. These examples can also be an important source of information for machine learning, if a sufficiently large number of examples are provided and published in a common, machine-readable and standardized format across different resources. Findings. We introduce a large collection of human-written natural language questions and their corresponding SPARQL queries over federated bioinformatics knowledge graphs (KGs) collected for several years across different research groups at the SIB Swiss Institute of Bioinformatics. The collection comprises more than 1000 example questions and queries, including 65 federated queries. We propose a methodology to uniformly represent the examples with minimal metadata, based on existing standards. Furthermore, we introduce an extensive set of open-source applications, including query graph visualizations and smart query editors, easily reusable by KG maintainers who adopt the proposed methodology. Conclusions. We encourage the community to adopt and extend the proposed methodology, towards richer KG metadata and improved Semantic Web services.

Published
2024

6. Development of TiN/AlN-based superconducting qubit components

Author

Schoof, Benedikt, Singer, Moritz, Lang, Simon, Gupta, Harsh, Zahn, Daniela, Weber, Johannes, and Tornow, Marc

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

This paper presents the fabrication and characterization of superconducting qubit components from titanium nitride (TiN) and aluminum nitride (AlN) layers to create Josephson junctions and superconducting resonators in an all-nitride architecture. Our methodology comprises a complete process flow for the fabrication of TiN/AlN/TiN junctions, characterized by scanning electron microscopy (SEM), atomic force microscopy (AFM), ellipsometry and DC electrical measurements. We evaluated the sputtering rates of AlN under varied conditions, the critical temperatures of TiN thin films for different sputtering environments, and the internal quality factors of TiN resonators in the few-GHz regime, fabricated from these films. Overall, this offered insights into the material properties critical to qubit performance. Measurements of the dependence of the critical current of the TiN / AlN / TiN junctions yielded values ranging from 150 ${\mu}$A to 2 ${\mu}$A, for AlN barrier thicknesses up to ca. 5 nm, respectively. Our findings demonstrate advances in the fabrication of nitride-based superconducting qubit components, which may find applications in quantum computing technologies based on novel materials.

Published
2024

7. Tantalum thin films sputtered on silicon and on different seed layers: material characterization and coplanar waveguide resonator performance

Author

Singer, Moritz, Schoof, Benedikt, Gupta, Harsh, Zahn, Daniela, Weber, Johannes, and Tornow, Marc

Subjects
Condensed Matter - Materials Science, Quantum Physics
Abstract

Superconducting qubits are a promising platform for large-scale quantum computing. Besides the Josephson junction, most parts of a superconducting qubit are made of planar, patterned superconducting thin films. In the past, most qubit architectures have relied on niobium (Nb) as the material of choice for the superconducting layer. However, there is also a variety of alternative materials with potentially less losses, which may thereby result in increased qubit performance. One such material is tantalum (Ta), for which high-performance qubit components have already been demonstrated. In this study, we report the sputter-deposition of Ta thin films directly on heated and unheated silicon (Si) substrates as well as onto different, nanometer-thin seed layers from tantalum nitride (TaN), titanium nitride (TiN) or aluminum nitride (AlN) that were deposited first. The thin films are characterized in terms of surface morphology, crystal structure, phase composition, critical temperature, residual resistance ratio (RRR) and RF-performance. We obtain thin films indicative of pure alpha-Ta for high temperature (600{\deg}C) sputtering directly on silicon and for Ta deposited on TaN or TiN seed layers. Coplanar waveguide (CPW) resonator measurements show that the Ta deposited directly on the heated silicon substrate performs best with internal quality factors $Q_i$ reaching 1 x $10^6$ in the single-photon regime, measured at $T=100 {\space \rm mK}$.

Published
2024

8. A Single Compartment Relaxed Eddy Accumulation Method

Author

Banerjee, T, Katul, GG, Zahn, E, Dias, NL, and Bou‐Zeid, E

Subjects
Earth Sciences, Atmospheric Sciences, relaxed eddy accumulation, eddy covariance, flux measurement, turbulent flux, atmospheric chemistry, Physical Geography and Environmental Geoscience, Atmospheric sciences, Climate change science
Abstract

The relaxed eddy accumulation (REA) method is a widely-known technique that measures turbulent fluxes of scalar quantities. The REA technique has been used to measure turbulent fluxes of various compounds, such as methane, ethene, propene, butene, isoprene, nitrous oxides, ozone, and others. The REA method requires the accumulation of scalar concentrations in two separate compartments that conditionally sample updrafts and downdraft events. It is demonstrated here that the assumptions behind the conventional or two-compartment REA approach allow for one-compartment sampling, therefore called a one compartment or 1-C-REA approach, thereby expanding its operational utility. The one-compartment sampling method is tested across various land cover types and atmospheric stability conditions, and it is found that the one-compartment REA can provide results comparable to those determined from conventional two-compartment REA. This finding enables rapid expansion and practical utility of REA in studies of surface-atmosphere exchanges, interactions, and feedbacks.

Published
2024

9. V-SeMo: a digital learning environment for teaching general relativity with sector models

Author

Weissenborn, S., Kraus, U., and Zahn, C.

Subjects
Physics - Physics Education
Abstract

The teaching of general relativity at the secondary school and lower undergraduate university levels is necessarily based on approaches with a restricted use of mathematics. An important aspect of teaching general relativity at this level are suitable learner activities. While a substantial number of such activities has been reported for studying the non-Euclidean geometry of curved surfaces, there are far fewer reports of activities that let learners actually study spacetimes and infer physical phenomena from their geometry. In this article we report on the digital learning environment V-SeMo that brings sector models (Zahn and Kraus 2014, arXiv:1405.0323) into an interactive web application. V-SeMo lets learners explore relativistic spacetimes by constructing geodesics and assessing curvature. We describe the didactic design and the user interface of V-SeMo, discuss the extended possibilities of virtual sector models compared to the paper models described previously, and present an activity on light deflection near neutron stars by way of example. We further report on an evaluation carried out with secondary school students. Results indicate a high learning effectiveness in both the V-SeMo-based and the paper-based versions of a teaching unit on relativistic light deflection. The teaching materials presented in this article are available online for teaching purposes at https://www.spacetimetravel.org ., Comment: 24 pages, 13 figures

Published
2024

10. Element-specific ultrafast lattice dynamics in monolayer WSe2

Author

Jung, H., Dong, S., Zahn, D., Vasileiadis, T., Seiler, H., Schneider, R., de Vasconcellos, S. Michaelis, Taylor, V. C. A., Bratschitsch, R., Ernstorfer, R., and Windsor, Y. W.

Subjects
Condensed Matter - Materials Science
Abstract

We study monolayer WSe2 using ultrafast electron diffraction. We introduce an approach to quantitatively extract atomic-site-specific information, providing an element-specific view of incoherent atomic vibrations following femtosecond excitation. Via differences between W and Se vibrations, we identify stages in the nonthermal evolution of the lattice. Combined with a calculated phonon dispersion, this element specificity enables us to identify a long-lasting overpopulation of specific optical phonons, and to interpret the stages as energy transfer processes between specific phonon groups. These results demonstrate the appeal of resolving element-specific vibrational information in the ultrafast time domain., Comment: 13 pages, 3 figures

Published
2024

11. Towards the reproducible fabrication of conductive ferroelectric domain walls into lithium niobate bulk single crystals

Author

Ratzenberger, Julius, Kiseleva, Iuliia, Koppitz, Boris, Beyreuther, Elke, Zahn, Manuel, Gössel, Joshua, Hegarty, Peter A., Amber, Zeeshan H., Rüsing, Michael, and Eng, Lukas M.

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

Ferroelectric domain walls (DWs) are promising structures for assembling future nano-electronic circuit elements on a larger scale, since reporting domain wall currents of up to 1 mA per single DW. One key requirement hereto is their reproducible manufacturing by gaining preparative control over domain size and domain wall conductivity (DWC). To date, most works on DWC have focused on exploring the fundamental electrical properties of individual DWs within single shot experiments, with emphasis on quantifying the origins for DWC. Very few reports exist when it comes to compare the DWC properties between two separate DWs, and literally nothing exists where issues of reproducibility in DWC devices have been addressed. To fill this gap while facing the challenge of finding guidelines achieving predictable DWC performance, we report on a procedure that allows us to reproducibly prepare single hexagonal domains of a predefined diameter into uniaxial ferroelectric (FE) lithium niobate (LN) single crystals of 200 and 300 micrometers thickness, respectively. We show that the domain diameter can be controlled with an error of a few percent. As-grown DWs are then subjected to a standard procedure of current-controlled high-voltage DWC enhancement, repetitively reaching a DWC increase of 6 orders of magnitude. While all resulting DWs show significantly enhanced DWC values, subtle features in their individual current-voltage (I-V) characteristics hint towards different 3D shapes into the bulk, with variations probably reflecting local heterogeneities by defects, DW pinning, and surface-near DW inclination, which seem to have a larger impact than expected., Comment: 12 pages, 7 figures, with appended supplement (9 pages, 7 figures)

Published
2024
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12. DeepHYDRA: Resource-Efficient Time-Series Anomaly Detection in Dynamically-Configured Systems

Author

Stehle, Franz Kevin, Vandelli, Wainer, Avolio, Giuseppe, Zahn, Felix, and Fröning, Holger

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence, Computer Science - Distributed, Parallel, and Cluster Computing
Abstract

Anomaly detection in distributed systems such as High-Performance Computing (HPC) clusters is vital for early fault detection, performance optimisation, security monitoring, reliability in general but also operational insights. Deep Neural Networks have seen successful use in detecting long-term anomalies in multidimensional data, originating for instance from industrial or medical systems, or weather prediction. A downside of such methods is that they require a static input size, or lose data through cropping, sampling, or other dimensionality reduction methods, making deployment on systems with variability on monitored data channels, such as computing clusters difficult. To address these problems, we present DeepHYDRA (Deep Hybrid DBSCAN/Reduction-Based Anomaly Detection) which combines DBSCAN and learning-based anomaly detection. DBSCAN clustering is used to find point anomalies in time-series data, mitigating the risk of missing outliers through loss of information when reducing input data to a fixed number of channels. A deep learning-based time-series anomaly detection method is then applied to the reduced data in order to identify long-term outliers. This hybrid approach reduces the chances of missing anomalies that might be made indistinguishable from normal data by the reduction process, and likewise enables the algorithm to be scalable and tolerate partial system failures while retaining its detection capabilities. Using a subset of the well-known SMD dataset family, a modified variant of the Eclipse dataset, as well as an in-house dataset with a large variability in active data channels, made publicly available with this work, we furthermore analyse computational intensity, memory footprint, and activation counts. DeepHYDRA is shown to reliably detect different types of anomalies in both large and complex datasets.

Published
2024
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16. Isoprene nitrates drive new particle formation in Amazon’s upper troposphere

Author

Curtius, Joachim, Heinritzi, Martin, Beck, Lisa J., Pöhlker, Mira L., Tripathi, Nidhi, Krumm, Bianca E., Holzbeck, Philip, Nussbaumer, Clara M., Hernández Pardo, Lianet, Klimach, Thomas, Barmpounis, Konstantinos, Andersen, Simone T., Bardakov, Roman, Bohn, Birger, Cecchini, Micael A., Chaboureau, Jean-Pierre, Dauhut, Thibaut, Dienhart, Dirk, Dörich, Raphael, Edtbauer, Achim, Giez, Andreas, Hartmann, Antonia, Holanda, Bruna A., Joppe, Philipp, Kaiser, Katharina, Keber, Timo, Klebach, Hannah, Krüger, Ovid O., Kürten, Andreas, Mallaun, Christian, Marno, Daniel, Martinez, Monica, Monteiro, Carolina, Nelson, Carolina, Ort, Linda, Raj, Subha S., Richter, Sarah, Ringsdorf, Akima, Rocha, Fabio, Simon, Mario, Sreekumar, Sreedev, Tsokankunku, Anywhere, Unfer, Gabriela R., Valenti, Isabella D., Wang, Nijing, Zahn, Andreas, Zauner-Wieczorek, Marcel, Albrecht, Rachel I., Andreae, Meinrat O., Artaxo, Paulo, Crowley, John N., Fischer, Horst, Harder, Hartwig, Herdies, Dirceu L., Machado, Luiz A. T., Pöhlker, Christopher, Pöschl, Ulrich, Possner, Anna, Pozzer, Andrea, Schneider, Johannes, Williams, Jonathan, and Lelieveld, Jos

Published
2024
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22. Human-AI Interaction in Industrial Robotics: Design and Empirical Evaluation of a User Interface for Explainable AI-Based Robot Program Optimization

Author

Alt, Benjamin, Zahn, Johannes, Kienle, Claudius, Dvorak, Julia, May, Marvin, Katic, Darko, Jäkel, Rainer, Kopp, Tobias, Beetz, Michael, and Lanza, Gisela

Subjects
Computer Science - Robotics, Computer Science - Artificial Intelligence, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Human-Computer Interaction, Computer Science - Machine Learning, 68T40, I.2.1, I.2.9, I.2.2, J.6, J.7
Abstract

While recent advances in deep learning have demonstrated its transformative potential, its adoption for real-world manufacturing applications remains limited. We present an Explanation User Interface (XUI) for a state-of-the-art deep learning-based robot program optimizer which provides both naive and expert users with different user experiences depending on their skill level, as well as Explainable AI (XAI) features to facilitate the application of deep learning methods in real-world applications. To evaluate the impact of the XUI on task performance, user satisfaction and cognitive load, we present the results of a preliminary user survey and propose a study design for a large-scale follow-up study., Comment: 6 pages, 4 figures, accepted at the 2024 CIRP International Conference on Manufacturing Systems (CMS)

Published
2024

23. Controlling 4f antiferromagnetic dynamics via itinerant electronic susceptibility

Author

Lee, Sang-Eun, Windsor, Yoav William, Zahn, Daniela, Kraiker, Alexej, Kummer, Kurt, Kliemt, Kristin, Krellner, Cornelius, Schüßler-Langeheine, Christian, Pontius, Niko, Staub, Urs, Vyalikh, Denis V., Ernst, Arthur, and Rettig, Laurenz

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Optical manipulation of magnetism holds promise for future ultrafast spintronics, especially with lanthanides and their huge, localized 4f magnetic moments. These moments interact indirectly via the conduction electrons (RKKY exchange), influenced by interatomic orbital overlap, and the conduction electron susceptibility. Here, we study this influence in a series of 4f antiferromagnets, GdT2Si2 (T=Co, Rh, Ir), using ultrafast resonant X-ray diffraction. We observe a twofold increase in ultrafast angular momentum transfer between the materials, originating from modifications in the conduction electron susceptibility, as confirmed by first-principles calculations.

Published
2024

24. Exciplex-driven blue OLEDs: unlocking multifunctionality applications

Author

Weber, Dominik, Morgenstern, Annika, Beer, Daniel, Zahn, Dietrich R. T., Deibel, Carsten, Salvan, Georgeta, and Schondelmaier, Daniel

Subjects
Physics - Applied Physics
Abstract

We present the development of multifunctional blue-emission organic light-emitting diodes (OLEDs) using TADF-exciplex materials. These OLEDs exhibit sensitivity to external stimuli and achieve a maximum external quantum efficiency (EQE) of 11.6 % through partly liquid processing. This technique allows for large-scale production on arbitrary geometries. The potential multifunctionality of the devices arises from their response to low external magnetic fields (up to 100 mT) with an efficiency up to 2.5 % for magnetoconductance, while maximum magneto-electroluminescence effects of 4.1 % were detected. We investigated novel aspects, including the utilization of two organic materials without further doping and the investigation of the impact of 2,2',2''-(1,3,5-Benzinetriyl)-tris(1phenyl-1-H-benzimidazole) (TPBi) processing in liquid and vapor form. The insights gained provide a fundamental understanding regarding the applicability of exciplex (EX) materials for fully solution-processed OLEDs through a deliberate omission of doping. Our work represents a significant advancement on the path towards multifunctional OLED technology, with potential applications in cost-efficient, scalable organic full-color displays and advanced sensing system, Comment: 25 pages manuscript, 3 pages supplementary information

Published
2024

25. Motif distribution and function of sparse deep neural networks

Author

Zahn, Olivia T., Daniel, Thomas L., and Kutz, J. Nathan

Subjects
Computer Science - Machine Learning
Abstract

We characterize the connectivity structure of feed-forward, deep neural networks (DNNs) using network motif theory. To address whether a particular motif distribution is characteristic of the training task, or function of the DNN, we compare the connectivity structure of 350 DNNs trained to simulate a bio-mechanical flight control system with different randomly initialized parameters. We develop and implement algorithms for counting second- and third-order motifs and calculate their significance using their Z-score. The DNNs are trained to solve the inverse problem of the flight dynamics model in Bustamante, et al. (2022) (i.e., predict the controls necessary for controlled flight from the initial and final state-space inputs) and are sparsified through an iterative pruning and retraining algorithm Zahn, et al. (2022). We show that, despite random initialization of network parameters, enforced sparsity causes DNNs to converge to similar connectivity patterns as characterized by their motif distributions. The results suggest how neural network function can be encoded in motif distributions, suggesting a variety of experiments for informing function and control.

Published
2024

26. A Call for QuantCrit Methodologies: Unpacking the Need for a Critical Lens in School Psychology Research

Author

Stephanie D'Costa, Stephanie Grant, Tara Kulkarni, Adrianna Crossing, Miranda Zahn, and Marie L. Tanaka

Abstract

School psychology has heavily relied on quantitative methodology to create and sustain our knowledge of best practices regarding academic, behavioral, and mental health outcomes for students. Nevertheless, underlying assumptions of the neutrality of quantitative data have obfuscated how school psychology research has perpetuated oppressive ideologies and practices, which directly harm students from marginalized identities. This paper demonstrates the need for employing a critical lens when engaging in and consuming school psychology research that utilizes quantitative methods. One such framework is QuantCrit, developed in the United Kingdom, which intentionally integrates Critical Race Theory tenets into the development, analysis, and interpretation of quantitative data. We explore specific examples of the insidious ways that 'presumed neutral' quantitative approaches have led to the perpetuation of oppressive practices in the following key areas of school psychology research: (a) discipline disproportionality, (b) special education disproportionality, and (c) school accountability metrics. Furthermore, we provide recommendations for both utilizing and publishing quantitative research that moves school psychologists towards more equitable practices for children and families across the globe.

Published
2024
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27. Zooming In: The Role of Nonverbal Behavior in Sensing the Quality of Collaborative Group Engagement

Author

Lisa Paneth, Loris T. Jeitziner, Oliver Rack, Klaus Opwis, and Carmen Zahn

Abstract

Successful computer-supported collaborative learning (CSCL) relies on collaborative group engagement, a complex construct characterized by multifaceted, dynamic, socio-emotional, and socio-cognitive processes. This paper provides a detailed analysis of collaborative group engagement, with a particular focus on nonverbal behaviors as indicators of high versus low group engagement. Using video observations and a multi-method approach, we examine in detail the relationships between different dimensions of group engagement (i.e., behavioral, social, cognitive, and conceptual-to-consequential engagement) and nonverbal behaviors. Using qualitative case analysis, we also provide a rich examination of selected cases to identify the role that nonverbal behaviors play in high-engagement sequences compared with low-engagement sequences. Our findings shed light on specific nonverbal behaviors, including nodding, laughing, and eye contact, as significant indicators of high versus low collaborative group engagement. Notably, more of these nonverbal behaviors are evident in high-engagement sequences, suggesting mutual reinforcement on each dimension of engagement--with the exception of behavioral engagement, where increased laughing or smiling is evident in low-engagement sequences, but still serves a productive group process. The paper concludes with a discussion and implications of the findings. By demonstrating the role of nonverbal behaviors as important indicators, this work contributes to the understanding of the complex, dynamic, and contextualized nature of collaborative group engagement in CSCL settings.

Published
2024
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28. Healthy Educators Need Healthy Schools: Supporting Educator Work-Related Well-Being through Multitiered Systems of Support

Author

Talida M. State, Rachel R. Ouellette, Imad Zaheer, and Miranda R. Zahn

Abstract

The COVID-19 pandemic has amplified preexisting challenges for educators as manifested in high rates of work-related stress and burnout, and educators leaving the profession in higher numbers than ever before. In this article, we highlight the urgency for work-related well-being supports for educators, with a particular focus on system changes. Individual self-care is necessary, yet insufficient. To this end, we recommend the use of a multitiered system of support framework to promote a supportive and balanced work environment for all educators, tailored to local needs. We provide a rationale for the use of a tiered model and give specific recommendations for implementation and sustainability of a continuum of supports for school-wide educator well-being.

Published
2024
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30. SMYD5 methylation of rpL40 links ribosomal output to gastric cancer

Author

Park, Juhyung, Wu, Jibo, Szkop, Krzysztof J., Jeong, Jinho, Jovanovic, Predrag, Husmann, Dylan, Flores, Natasha M., Francis, Joel W., Chen, Ying-Jiun C., Benitez, Ana Morales, Zahn, Emily, Song, Shumei, Ajani, Jaffer A., Wang, Linghua, Singh, Kamini, Larsson, Ola, Garcia, Benjamin A., Topisirovic, Ivan, Gozani, Or, and Mazur, Pawel K.

Published
2024
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33. Estimating scalar turbulent fluxes with slow response sensors in the stable atmospheric boundary layer

Author

Allouche, Mohammad, Sevostianov, Vladislav I., Zahn, Einara, Zondlo, Mark, Dias, Nelson Luís, Katul, Gabriel G., Fuentes, Jose D., and Bou-Zeid, Elie

Subjects
Physics - Atmospheric and Oceanic Physics
Abstract

Conventional and recently developed approaches for estimating turbulent scalar fluxes under stable conditions are evaluated. The focus is on methods that do not require fast scalar sensors such as the relaxed eddy accumulation (REA) approach, the disjunct eddy-covariance (DEC) approach, and a novel mixing length parametrization labelled as A22. Using high-frequency measurements collected from two contrasting sites (Utqiagvik, Alaska and Wendell, Idaho "during winter"), it is shown that the REA and A22 models outperform the conventional Monin-Obukhov Similarity Theory (MOST) utilized in Earth System Models. With slow trace gas sensors used in disjunct eddy-covariance (DEC) approaches and the more complex signal filtering associated with REA devices (here simulated using filtered signals from fast-response sensors), A22 outperforms REA and DEC in predicting the observed unfiltered (total) eddy-covariance (EC) fluxes. However, REA and DEC can still capture the observed filtered EC fluxes computed with the filtered scalar signal. This finding motivates the development of a correction, blending the REA and DEC methods, for the underestimated net averaged fluxes to incorporate the effect of sensor filtering. The only needed parameter for this correction is the mean velocity at the instrument height, a surrogate of the advective timescale., Comment: 14 pages, 8 figures, 2 tables

Published
2024

34. Macroscopically Self-Aligned and Chiralized Carbon Nanotubes: From Filtration to Innovation

Author

Doumani, Jacques, Zahn, Keshav, Yu, Shengjie, Barrios, Gustavo Rodriguez, Sasmal, Somesh, Kikuchi, Rikuta, Kritzell, T. Elijah, Xu, Hongjing, Baydin, Andrey, and Kono, Junichiro

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

Because of their natural one-dimensional (1D) structure combined with intricate chiral variations, carbon nanotubes (CNTs) exhibit various exceptional physical properties, such as ultrahigh electrical and thermal conductivity, exceptional mechanical strength, and chirality-dependent metallicity. These properties make CNTs highly promising for diverse applications, including field-effect transistors, sensors, photodetectors, and thermoelectric devices. While CNTs excel individually at the nanoscale, their 1D and chiral nature can be lost on a macroscopic scale when they are randomly assembled. Therefore, the alignment and organization of CNTs in macroscopic structures is crucial for harnessing their full potential. In this review, we explore recent advancements in understanding CNT alignment mechanisms, improving CNT aligning methods, and demonstrating macroscopically 1D properties of ordered CNT assemblies. We also focus on a newly discovered class of CNT architectures, combining CNT alignment and twisting mechanisms to create artificial radial and chiral CNT films at wafer scales. Finally, we summarize recent developments related to aligned and chiral CNT films in optoelectronics, highlighting their unique roles in solar cells, thermal emitters, and optical modulators.

Published
2023

35. Long-range correlations of the stress tensor near the Cauchy horizon

Author

Klein, Christiane and Zahn, Jochen

Subjects
General Relativity and Quantum Cosmology, Quantum Physics
Abstract

We show that the stress tensor of a real scalar quantum field on Reissner-Nordstr{\"o}m-de Sitter spacetime exhibits correlations over macroscopic distances near the Cauchy horizon. These diverge as the Cauchy horizon is approached and are universal, i.e., state-independent. This signals a breakdown of the semi-classical approximation near the Cauchy horizon. We also investigate the effect of turning on a charge of the scalar field and consider the correlation of the stress tensor between the two poles of the Cauchy horizon of Kerr-de Sitter spacetime., Comment: 5 pages, 4 figures, version as published in PRD

Published
2023
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39. A self-amplifying RNA RSV prefusion-F vaccine elicits potent immunity in pre-exposed and naïve non-human primates

Author

Vijayan, Aneesh, Vogels, Ronald, Groppo, Rachel, Jin, Yi, Khan, Selina, Van Kampen, Mirjam, Jorritsma, Sytze, Boedhoe, Satish, Baert, Miranda, van Diepen, Harry, Kuipers, Harmjan, Serroyen, Jan, del Valle, Jorge Reyes-, Broman, Ann, Nguyen, Lannie, Ray, Sayoni, Jarai, Bader, Arora, Jayant, Lifton, Michelle, Mildenberg, Benjamin, Morton, Georgeanna, Santra, Sampa, Grossman, Tamar R., Schuitemaker, Hanneke, Custers, Jerome, and Zahn, Roland

Published
2024
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46. CoPoP liposomes displaying stabilized clade C HIV-1 Env elicit tier 2 multiclade neutralization in rabbits

Author

Koornneef, Annemart, Vanshylla, Kanika, Hardenberg, Gijs, Rutten, Lucy, Strokappe, Nika M., Tolboom, Jeroen, Vreugdenhil, Jessica, Boer, Karin Feddes-de, Perkasa, Aditya, Blokland, Sven, Burger, Judith A., Huang, Wei-Chiao, Lovell, Jonathan F., van Manen, Danielle, Sanders, Rogier W., Zahn, Roland C., Schuitemaker, Hanneke, Langedijk, Johannes P. M., and Wegmann, Frank

Published
2024
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48. European reference network for rare inherited congenital anomalies (ERNICA) evidence based guideline on the management of gastroschisis

Author

Burgos, Carmen Mesas, Irvine, Willemijn, Vivanti, Alexandre, Conner, Peter, Machtejeviene, Egle, Peters, Nina, Sabria, Joan, Torres, Ana Sanchez, Tognon, Costanza, Sgró, Alberto, Kouvisalo, Antti, Langeveld-Benders, Hester, Sfeir, Rony, Miserez, Marc, Qvist, Nils, Lokosiute-Urboniene, Ausra, Zahn, Katrin, Brendel, Julia, Prat, Jordi, Eaton, Simon, and Benachi, Alexandra

Published
2024
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49. Intervention Selection Profile-Function: An Examination of Decisional Accuracy Relative to Traditional FBA Data

Author

Katie Eklund, Stephen Kilgus, Miranda Zahn, Nathaniel von der Embse, Jessica Willenbrink, Elizabeth Davis, and Teagan Twombly

Abstract

The purpose of this study was to examine the accuracy of function-based decisions made in consideration of scores from the Intervention Selection Profile (ISP)-Function, a tool founded upon direct behavior rating methodology. The ISP-Function is designed to be a brief measure, given the need for efficient and low resource assessments in schools. Data from a previous investigation were used to create data reports for each of 34 elementary students with a history of exhibiting disruptive behavior in the classroom. The first report summarized ISP-Function data that the student's classroom teacher collected. The second report was representative of more typical functional behavior assessment (FBA), summarizing data collected via a functional assessment interview with the teacher, as well as systematic direct observation data. Nine school psychologists conducted blind reviews of these reports and derived decisions regarding the function of each student's behavior (e.g., adult attention or escape/avoidance). Gwet's agreement coefficients were statistically significant and suggested Fair to Almost Perfect correspondence between ISP-Function and FBA reports. Limitations and implications for practice are discussed herein. [This paper was published in "School Psychology."]

Published
2023
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50. Special Education Evaluation Considerations in a Post-Pandemic Era

Author

Wesley A. Sims, Rondy Yu, and Danielle Zahn

Abstract

While disruptions to typical education, special education, and psycho-educational service delivery practices in response to the COVID-19 pandemic have dissipated, their impact magnified educational systems' overreliance on evaluations to determine eligibility for special education and related services. Given that the potential for future disruptions is now ever-present, it is imperative that service providers learn from these recent experiences to improve typical policies, procedures, and practices under normal service delivery circumstances as well as to respond efficiently and effectively to any future disruptions, should they arise. To this end, this work presents several reminders and considerations for multidisciplinary teams related to assessment, testing, special education evaluations, and closely related processes exacerbated by the COVID-19 pandemic.

Published
2024
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