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1. Design rules for low-insertion-loss magnonic transducers

Author

Erdélyi, Róbert, Csaba, György, Maucha, Levente, Kohl, Felix, Greil, Johannes, Becherer, Markus, Pirro, Philipp, and Papp, Ádám

Subjects
Physics - Applied Physics
Abstract

We present a computational framework for the design of magnonic transducers, where waveguide antennas generate and pick up spin-wave signals. Our method relies on the combination of circuit-level models with micromagnetic simulations and allows simulation of complex geometries in the magnonic domain. We validated our model with experimental measurements, which showed good agreement witch the predicted scattering parameters of the system. Using our model we identified scaling rules of the antenna radiation resistance and we show strategies to maximize transduction efficiency between the electric and magnetic domains. We designed a transducer pair on YIG with 5dB insertion loss in a 100 MHz band, an unusually low value for micron-scale spin-wave devices. This demonstrates that magnonic devices can be very efficient and competitive in RF applications.

Published
2024

2. Collective action and entanglement of magnetically active liquid crystal elastomer ribbons

Author

Dana, Asaf, Benson, Christian, Kalairaj, Manivannan Sivaperuman, Hellikson, Kayla, George, Sasha M., Chimene, David C., Gibson, Jared A., Tasmim, Seelay, Kohl, Phillip A., Li, Youli, Abdelrahman, Mustafa K., Patil, Vishal P., and Ware, Taylor H.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Interactions between active individuals in animal collectives lead to emergent responses that remain elusive in synthetic soft matter. Here, shape-morphing polymers are used to create bio-inspired transient solids that self-assemble with controlled mechanical properties and disassemble on demand. Dilute-suspensions of magnetic, heat-responsive liquid crystal elastomer ribbons mechanically interlock, inducing reversible aggregation. A mathematical model is developed that sheds light on the role of topological mechanisms in aggregation. Aggregation was favored for ribbons with moderate curvature at 25C above crosslinking temperature as compared to flat ribbons or higher curvature ribbons at higher temperatures. The ribbon suspensions reversibly transition between fluid- and solid-like states, exhibiting up to 6 orders-of-magnitude increase in the storage moduli of the entangled aggregates compared with the liquid dispersions. Controlled dissociation is induced by imparting kinetic energy to the individual ribbons at high magnetic field rotation speeds (> 200 RPM). Ribbon shape and the medium in which dissociation occurs were shown to govern disassembly. Imparting dynamic collective behaviors into synthetic systems may enable a range of potential applications from bio-inspired soft robotics to injectable biomaterials., Comment: 16 pages, 6 figures

Published
2024

3. New Measurements of the Deuteron to Proton F2 Structure Function Ratio

Author

Biswas, Debaditya, Gonzalez, Fernando Araiza, Henry, William, Karki, Abishek, Morean, Casey, Nadeeshani, Sooriyaarachchilage, Sun, Abel, Abrams, Daniel, Ahmed, Zafar, Aljawrneh, Bashar, Alsalmi, Sheren, Ambrose, George, Armstrong, Whitney, Asaturyan, Arshak, Assumin-Gyimah, Kofi, Gayoso, Carlos Ayerbe, Bandari, Anashe, Basnet, Samip, Berdnikov, Vladimir, Bhatt, Hem, Bhetuwal, Deepak, Boeglin, Werner, Bosted, Peter, Brash, Edward, Bukhari, Masroor, Chen, Haoyu, Chen, Jian-Ping, Chen, Mingyu, Christy, Michael Eric, Dusa, Silviu Covrig, Craycraft, Kayla, Danagoulian, Samuel, Day, Donal, Diefenthaler, Markus, Dlamini, Mongi, Dunne, James, Duran, Burcu, Dutta, Dipangkar, Ent, Rolf, Evans, Rory, Fenker, Howard, Fomin, Nadia, Fuchey, Eric, Gaskell, David, Gautam, Thir Narayan, Hansen, Jens-Ole, Hauenstein, Florian, Hernandez, A., Horn, Tanja, Huber, Garth, Jones, Mark, Joosten, Sylvester, Kabir, Md Latiful, Keppel, Cynthia, Khanal, Achyut, King, Paul, Kinney, Edward, Kohl, Michael, Lashley-Colthirst, Nathaniel, Li, Shujie, Li, Wenliang, Liyanage, Anusha Habarakada, Mack, David, Malace, Simona, Markowitz, Pete, Matter, John, Meekins, David, Michaels, Robert, Mkrtchyan, Arthur, Mkrtchyan, Hamlet, Moore, Zae, Nazeer, S. J., Nanda, Shirsendu, Niculescu, Gabriel, Niculescu, Maria, Nguyen, Huong, Nuruzzaman, Nuruzzaman, Pandey, Bishnu, Park, Sanghwa, Pooser, Eric, Puckett, Andrew, Rehfuss, Melanie, Reinhold, Joerg, Sawatzky, Bradley, Smith, G., Szumila-Vance, Holly, Tadepalli, Arun, Tadevosyan, Vardan, Trotta, Richard, Wood, Stephen, Yero, Carlos, and Zhang, Jinlong

Subjects
High Energy Physics - Experiment
Abstract

Nucleon structure functions, as measured in lepton-nucleon scattering, have historically provided a critical observable in the study of partonic dynamics within the nucleon. However, at very large parton momenta it is both experimentally and theoretically challenging to extract parton distributions due to the probable onset of non-perturbative contributions and the unavailability of high precision data at critical kinematics. Extraction of the neutron structure and the d-quark distribution have been further challenging due to the necessity of applying nuclear corrections when utilizing scattering data from a deuteron target to extract free neutron structure. However, a program of experiments has been carried out recently at the energy-upgraded Jefferson Lab electron accelerator aimed at significantly reducing the nuclear correction uncertainties on the d-quark distribution function at large partonic momentum. This allows leveraging the vast body of deuterium data covering a large kinematic range to be utilized for d-quark parton distribution function extraction. We present new data from experiment E12-10-002 carried out in Jefferson Lab Hall C on the deuteron to proton cross-section ratio at large BJorken-x. These results significantly improve the precision of existing data, and provide a first look at the expected impact on quark distributions extracted from global parton distribution function fits.

Published
2024

4. De novo design of high-affinity protein binders with AlphaProteo

Author

Zambaldi, Vinicius, La, David, Chu, Alexander E., Patani, Harshnira, Danson, Amy E., Kwan, Tristan O. C., Frerix, Thomas, Schneider, Rosalia G., Saxton, David, Thillaisundaram, Ashok, Wu, Zachary, Moraes, Isabel, Lange, Oskar, Papa, Eliseo, Stanton, Gabriella, Martin, Victor, Singh, Sukhdeep, Wong, Lai H., Bates, Russ, Kohl, Simon A., Abramson, Josh, Senior, Andrew W., Alguel, Yilmaz, Wu, Mary Y., Aspalter, Irene M., Bentley, Katie, Bauer, David L. V., Cherepanov, Peter, Hassabis, Demis, Kohli, Pushmeet, Fergus, Rob, and Wang, Jue

Subjects
Quantitative Biology - Biomolecules
Abstract

Computational design of protein-binding proteins is a fundamental capability with broad utility in biomedical research and biotechnology. Recent methods have made strides against some target proteins, but on-demand creation of high-affinity binders without multiple rounds of experimental testing remains an unsolved challenge. This technical report introduces AlphaProteo, a family of machine learning models for protein design, and details its performance on the de novo binder design problem. With AlphaProteo, we achieve 3- to 300-fold better binding affinities and higher experimental success rates than the best existing methods on seven target proteins. Our results suggest that AlphaProteo can generate binders "ready-to-use" for many research applications using only one round of medium-throughput screening and no further optimization., Comment: 45 pages, 17 figures

Published
2024

5. The MUSE Beamline Calorimeter

Author

Lin, W., Rostomyan, T., Gilman, R., Strauch, S., Meier, C., Nestler, C., Ali, M., Atac, H., Bernauer, J. C., Briscoe, W. J., Ndukwe, A. Christopher, Cline, E. W., Deiters, K., Dogra, S., Downie, E. J., Duan, Z., Fernando, I. P., Flannery, A., Ghosal, D., Golossanov, A., Guo, J., Ifat, N. S., Ilieva, Y., Kohl, M., Lavrukhin, I., Li, L., Lorenzon, W., Mohanmurthy, P., Nazeer, S. J., Nicol, M., Patel, T., Prosnyakov, A., Ransome, R. D., Ratvasky, R., Reid, H., Reimer, P. E., Richards, R., Ron, G., Ruimi, O. M., Salamone, K., Sparveris, N., Wuerfel, N., and Yaari, D. A.

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

The MUon Scattering Experiment (MUSE) was motivated by the proton radius puzzle arising from the discrepancy between muonic hydrogen spectroscopy and electron-proton measurements. The MUSE physics goals also include testing lepton universality, precisely measuring two-photon exchange contribution, and testing radiative corrections. MUSE addresses these physics goals through simultaneous measurement of high precision cross sections for electron-proton and muon-proton scattering using a mixed-species beam. The experiment will run at both positive and negative beam polarities. Measuring precise cross sections requires understanding both the incident beam energy and the radiative corrections. For this purpose, a lead-glass calorimeter was installed at the end of the beam line in the MUSE detector system. In this article we discuss the detector specifications, calibration and performance. We demonstrate that the detector performance is well reproduced by simulation, and meets experimental requirements.

Published
2024

6. CircleZ: Reliable Photometric redshifts for AGN computed using only photometry from Legacy Survey Imaging for DESI

Author

Saxena, A., Salvato, M., Roster, W., Shirley, R., Buchner, J., Wolf, J., Kohl, C., Starck, H., Dwelly, T., Comparat, J., Malyali, A., Krippendorf, S., Zenteno, A., Lang, D., Schlegel, D., Zhou, R., Dey, A., Valdes, F., Myers, A., Assef, R. J., Ricci, C., Temple, M. J., Merloni, A., Koekemoer, A., Anderson, S. F., Morrison, S., Liu, X., and Nandra, K.

Subjects
Astrophysics - Astrophysics of Galaxies
Abstract

(abridged)Photometric redshifts for AGN (galaxies hosting an accreting supermassive black hole in their center) are notoriously challenging and currently better computed via SED fitting, assuming that deep photometry for many wavelengths is available. However, for AGN detected all-sky, the photometry is limited and provided by different projects. This makes the task of homogenising the data challenging and is a dramatic drawback for the millions of AGN that wide surveys like SRG/eROSITA will detect. This work aims to compute reliable photometric redshifts for X-ray-detected AGN using only one dataset that covers a large area: the 10th Data Release of the Imaging Legacy Survey (LS10) for DESI. LS10 provides deep grizW1-W4 forced photometry within various apertures, thus avoids issues related to the cross-calibration of surveys. We present the results from CircleZ, a machine-learning algorithm based on a Fully Connected Neural Network. CircleZ uses training sample of 14,000 X-ray-detected AGN and utilizes multi-aperture photometry. The accuracy and the fraction of outliers reached in a test sample of 2913 AGN are 0.067 and 11.6%, respectively. The results are comparable to or better than those obtained previously for the same field but with much less effort. We further tested the stability of the results by computing the photometric redshifts for the sources detected in CSC2 and Chandra-COSMOS Legacy, reaching comparable accuracy as in eFEDS when limiting the magnitude of the counterparts with respect to the depth of LS10. The method applies to fainter samples of AGN using deeper optical data from future surveys (e.g., LSST, Euclid), granted LS10-like information on the light distribution beyond a morphological type is provided. With the paper, we release an updated version of the photometric redshifts (including errors and probability distribution function) for eROSITA/eFEDS., Comment: A&A, paper accepted

Published
2024
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7. Influence of buffer/protective layers on the structural and magnetic properties of SmCo films on Silicon

Author

Maspero, F., Koplak, O. V., Plaza, A., Heinz, B., Kohl, F., Pirro, P., and Bertacco, R.

Subjects
Condensed Matter - Materials Science
Abstract

Integration of Samarium Cobalt hard magnets on silicon requires buffer/protective layers that can enhance the magnetic properties of the magnet while preserving its structure and chemical composition after post-annealing treatments needed for the formation of the magnetically hard phase. In this work, a comparison of Samarium-Cobalt films for five different buffer/protective layers, namely Ti, W, TiW, Ta, Cr and two different annealing temperatures, 650{\deg}C and 750{\deg}C, is presented. Depending on materials and annealing temperatures, magnetic properties such as saturation and coercivity of the SmCo film can be finely tuned. We show that coercivity up to 3.65 T or saturation magnetization up to 0.95 T can be reached by proper choice of the relevant process parameters: deposition temperature, material for the buffer/protective layer and annealing temperature. Such value of coercivity is among the highest found in literature for thin films of SmCo.

Published
2024

8. Scoping Review of Active Learning Strategies and their Evaluation Environments for Entity Recognition Tasks

Author

Kohl, Philipp, Krämer, Yoka, Fohry, Claudia, and Kraft, Bodo

Subjects
Computer Science - Computation and Language
Abstract

We conducted a scoping review for active learning in the domain of natural language processing (NLP), which we summarize in accordance with the PRISMA-ScR guidelines as follows: Objective: Identify active learning strategies that were proposed for entity recognition and their evaluation environments (datasets, metrics, hardware, execution time). Design: We used Scopus and ACM as our search engines. We compared the results with two literature surveys to assess the search quality. We included peer-reviewed English publications introducing or comparing active learning strategies for entity recognition. Results: We analyzed 62 relevant papers and identified 106 active learning strategies. We grouped them into three categories: exploitation-based (60x), exploration-based (14x), and hybrid strategies (32x). We found that all studies used the F1-score as an evaluation metric. Information about hardware (6x) and execution time (13x) was only occasionally included. The 62 papers used 57 different datasets to evaluate their respective strategies. Most datasets contained newspaper articles or biomedical/medical data. Our analysis revealed that 26 out of 57 datasets are publicly accessible. Conclusion: Numerous active learning strategies have been identified, along with significant open questions that still need to be addressed. Researchers and practitioners face difficulties when making data-driven decisions about which active learning strategy to adopt. Conducting comprehensive empirical comparisons using the evaluation environment proposed in this study could help establish best practices in the domain., Comment: The Version of Record of this contribution is published in Deep Learning Theory and Applications 5th International Conference, DeLTA 2024 Proceedings, and will be available after the conference

Published
2024
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9. Tuning magnonic devices with on-chip permanent micromagnets

Author

Cocconcelli, Maria, Tacchi, Silvia, Erdélyi, Róbert, Maspero, Federico, Del Giacco, Andrea, Plaza, Alejandro, Koplak, Oksana, Cattoni, Andrea, Silvani, Raffaele, Madami, Marco, Papp, Ádam, Csaba, Gyorgy, Kohl, Felix, Heinz, Björn, Pirro, Philipp, and Bertacco, Riccardo

Subjects
Physics - Applied Physics
Abstract

One of the most appealing features of magnonics is the easy tunability of spin-waves propagation via external magnetic fields. Usually this requires bulky and power-hungry electromagnets which are not compatible with device miniaturization. Here we propose a different approach, exploiting the stray field from permanent micromagnets integrated on the same chip of a magnonic wave-guide. In our monolithic device, we employ two SmCo square micromagnets (10x10 $\mu$m$^2$) flanking a CoFeB conduit at different distances from its axis, to produce a tunable transverse bias field between 7.5 and 3.0 mT in the conduit region between the magnets. Spin waves excited by an antenna just outside the region between the magnets enter a region with a variable higher (lower) effective field when an external bias field is applied parallel (antiparallel) to that from the micromagnets. Consequently, the attenuation length and phase shift of Damon-Eshbach spin waves can be tuned in a wide range by playing with the parallel-antiparallel configuration of the external bias and the distance between SmCo micromagnets and the CoFeB conduit. This work demonstrates the potential of permanent micro-magnets for the realization of low-power, integrated magnonic devices with tunable functionalities.

Published
2024

10. $K^+\Lambda(1520)$ photoproduction at forward angles near threshold with the BGOOD experiment

Author

Rosanowski, E. O., Jude, T. C., Alef, S., Figueiredo, A. J. Clara, Burdeinyi, D. D, Cole, P. L., Di Salvo, R., Elsner, D., Fantini, A., Freyermuth, O., Frommberger, F., Ganenko, V. B, Ghio, F., Groß, J., Kohl, K., Sandri, P. Levi, Mandaglio, G., Messi, R., Moricciani, D., Pedroni, P., Reitz, B. -E., Romaniuk, M., Scheluchin, G., Schmieden, H., and Sonnenschein, A.

Subjects
Nuclear Experiment
Abstract

The differential cross section for $\gamma p\rightarrow K^+\Lambda(1520)$ was measured from threshold to a centre-of-mass energy of 2090\,MeV at forward angles at the BGOOD experiment. The high statistical precision and resolution in centre-of-mass energy and angle allows a detailed characterisation of this low-momentum transfer kinematic region. The data agree with a previous LEPS measurement and support effective Lagrangian models that indicate that the contact term dominates the cross section near threshold., Comment: 6 pages, 7 figures

Published
2024

11. Envisioning Leadership for Tomorrow's Collective Well-Being

Author

Charles A. Hopkins, Katrin Kohl, Robert J. Didham, Dzulkifli bin Abdul Razak, Zainal Abidin Sanusi, and Mirian Vilela

Abstract

What kinds of leaders does the world need today to achieve a sustainable tomorrow? This article focuses on the importance of envisioning values-based leadership in a pursuit of collective well-being, in light of unprecedented change today, uncertainty about tomorrow, and a lack of clear vision of desired futures. The authors make the case for the importance of formal and informal leaders today and in the future understanding themselves as part of a broader system, and becoming aware of their own competencies, attributes, values, and limitations. The emerging aspects of what leadership can do to promote a sustainable future and lead on the path call for shifts in the current understanding of leadership roles and characteristics. More effective approaches may be found through exploring explicit, transparent values-based leadership as well as new forms of engaging in partnerships and addressing systems holistically. When engaged, higher education can play crucial new roles in preparing much-needed knowledgeable and compassionate leaders, fostering and influencing behavior across societies, and leading future generations to live life purposefully and skillfully in the global pursuit of a sustainable future for all.

Published
2024
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12. Coherent $\pi^0\eta d$ photoproduction at forward deuteron angles measured at BGOOD

Author

Figueiredo, A. J. Clara, Jude, T. C., Alef, S., Cole, P. L., Di Salvo, R., Elsner, D., Fantini, A., Freyermuth, O., Frommberger, F., Ghio, F., Groß, J., Kohl, K., Sandri, P. Levi, Mandaglio, G., Pedroni, P., Reitz, B. -E., Romaniuk, M., Scheluchin, G., Schmieden, H., Sonnenschein, A., and Tillmanns, C.

Subjects
Nuclear Experiment
Abstract

The coherent reaction, $\gamma d \rightarrow \pi^0\eta d$ was studied with the BGOOD experiment at ELSA from threshold to a centre-of-mass energy of 3200\,MeV. A full kinematic reconstruction was made, with final state deuterons identified in the forward spectrometer and $\pi^0$ and $\eta$ decays in the central BGO Rugby Ball. The strength of the differential cross section exceeds what can be described by models of coherent photoproduction at forward angles by orders of magnitude. The distribution of the differential cross section has an excellent agreement with a model including quasi-free $\Delta \pi$ photoproduction, pion re-scattering and $N(1535)$ formation and subsequent nucleon coalescence to the deuteron. This also gives a reasonable description of the two-body invariant mass distributions and naturally explains the similar magnitudes of this channel and $\pi^0\pi^0 d$ coherent photoproduction., Comment: 7 pages, 5 figures

Published
2024

13. Code Generation and Performance Engineering for Matrix-Free Finite Element Methods on Hybrid Tetrahedral Grids

Author

Böhm, Fabian, Bauer, Daniel, Kohl, Nils, Alappat, Christie, Thönnes, Dominik, Mohr, Marcus, Köstler, Harald, and Rüde, Ulrich

Subjects
Computer Science - Computational Engineering, Finance, and Science, 65F50, 65N30, 65N55, 65Y20, 65F10
Abstract

This paper introduces a code generator designed for node-level optimized, extreme-scalable, matrix-free finite element operators on hybrid tetrahedral grids. It optimizes the local evaluation of bilinear forms through various techniques including tabulation, relocation of loop invariants, and inter-element vectorization - implemented as transformations of an abstract syntax tree. A key contribution is the development, analysis, and generation of efficient loop patterns that leverage the local structure of the underlying tetrahedral grid. These significantly enhance cache locality and arithmetic intensity, mitigating bandwidth-pressure associated with compute-sparse, low-order operators. The paper demonstrates the generator's capabilities through a comprehensive educational cycle of performance analysis, bottleneck identification, and emission of dedicated optimizations. For three differential operators ($-\Delta$, $-\nabla \cdot (k(\mathbf{x})\, \nabla\,)$, $\alpha(\mathbf{x})\, \mathbf{curl}\ \mathbf{curl} + \beta(\mathbf{x}) $), we determine the set of most effective optimizations. Applied by the generator, they result in speed-ups of up to 58$\times$ compared to reference implementations. Detailed node-level performance analysis yields matrix-free operators with a throughput of 1.3 to 2.1 GDoF/s, achieving up to 62% peak performance on a 36-core Intel Ice Lake socket. Finally, the solution of the curl-curl problem with more than a trillion ($ 10^{12}$) degrees of freedom on 21504 processes in less than 50 seconds demonstrates the generated operators' performance and extreme-scalability as part of a full multigrid solver., Comment: 22 pages

Published
2024

15. Epigenetic regulation by polycomb repressive complex 1 promotes cerebral cavernous malformations

Author

Pham, Van-Cuong, Rödel, Claudia Jasmin, Valentino, Mariaelena, Malinverno, Matteo, Paolini, Alessio, Münch, Juliane, Pasquier, Candice, Onyeogaziri, Favour C, Lazovic, Bojana, Girard, Romuald, Koskimäki, Janne, Hußmann, Melina, Keith, Benjamin, Jachimowicz, Daniel, Kohl, Franziska, Hagelkruys, Astrid, Penninger, Josef M, Schulte-Merker, Stefan, Awad, Issam A, Hicks, Ryan, Magnusson, Peetra U, Faurobert, Eva, Pagani, Massimiliano, and Abdelilah-Seyfried, Salim

Published
2024
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17. Diverse RNA viruses of parasitic nematodes can elicit antibody responses in vertebrate hosts

Author

Quek, Shannon, Hadermann, Amber, Wu, Yang, De Coninck, Lander, Hegde, Shrilakshmi, Boucher, Jordan R., Cresswell, Jessica, Foreman, Ella, Steven, Andrew, LaCourse, E. James, Ward, Stephen A., Wanji, Samuel, Hughes, Grant L., Patterson, Edward I., Wagstaff, Simon C., Turner, Joseph D., Parry, Rhys H., Kohl, Alain, Heinz, Eva, Otabil, Kenneth Bentum, Matthijnssens, Jelle, Colebunders, Robert, and Taylor, Mark J.

Published
2024
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22. Introducing the comfort performance gap in new educational buildings: a case study

Author

Kohl, Theresa, Schranz, Thomas, Hofmann, Eva, Corcoran, Katja, and Schweiger, Gerald

Subjects
Physics - Physics and Society
Abstract

Providing adequate indoor environmental quality is crucial in educational settings. In this paper, we implemented and tested a framework that collects occupant feedback and investigated correlations between teachers comfort and the operational characteristics of an Austrian school building in September and October 2022. Initial results show that the measured average temperatures (23.1 t-25.1 deg C) in all rooms are on the upper limit of various recommendations, such as comfort guidelines for building operation or workplace regulations. This assessment is in line with the feedback we received from the teachers. A literature review demonstrated that childrens comfort temperatures are lower compared to adults. Hence, it is reasonable to conclude that indoor temperatures during the survey period were inadequate for the pupils either, even without direct feedback. An analysis of the CO2 measurements showed that, during school hours, approximately 20% of all measurement values were above 1000 ppm, with 2% above 1500 ppm. CO2 levels above 1000 ppm are considered hygienically critical, with the latest research proposing to lower the limits below 800 ppm to ensure a healthy and effective learning environment. While we only assessed the challenges of providing a healthy indoor environment for an educational building in Austria, our literature review shows similar challenges and research efforts worldwide. Our analysis demonstrates the need for adapting design requirements, especially for school buildings, acknowledging the different comfort needs of adults and children and the importance of high indoor air quality for providing an optimum learning environment. Future research should focus on testing adapted indoor environmental quality requirements for schools, especially in urban areas, and how to integrate real-time occupant feedback in the heating, ventilation and air conditioning systems.

Published
2024

23. A platform for rapid patient-derived cutaneous neurofibroma organoid establishment and screening.

Author

Nguyen, Huyen, Kohl, Emily, Bade, Jessica, Eng, Stefan, Tosevska, Anela, Al Shihabi, Ahmad, Tebon, Peyton, Hong, Jenny, Dry, Sarah, Boutros, Paul, Panossian, Andre, Gosline, Sara, and Soragni, Alice

Subjects
CP: Cancer biology, CP: Stem cell, HTS screening, benign tumor, cNF tumor organoids, cutaneous neurofibroma, neurofibroma, neurofibromatosis type 1, organoids, Humans, Organoids, Skin Neoplasms, Neurofibroma, Neurofibromatosis 1
Abstract

Localized cutaneous neurofibromas (cNFs) are benign tumors that arise in the dermis of patients affected by neurofibromatosis type 1 syndrome. cNFs are benign lesions: they do not undergo malignant transformation or metastasize. Nevertheless, they can cover a significant proportion of the body, with some individuals developing hundreds to thousands of lesions. cNFs can cause pain, itching, and disfigurement resulting in substantial socio-emotional repercussions. Currently, surgery and laser desiccation are the sole treatment options but may result in scarring and potential regrowth from incomplete removal. To identify effective systemic therapies, we introduce an approach to establish and screen cNF organoids. We optimized conditions to support the ex vivo growth of genomically diverse cNFs. Patient-derived cNF organoids closely recapitulate cellular and molecular features of parental tumors as measured by immunohistopathology, methylation, RNA sequencing, and flow cytometry. Our cNF organoid platform enables rapid screening of hundreds of compounds in a patient- and tumor-specific manner.

Published
2024

24. Aplicación de un modelo de gestión del uso público en Parques Nacionales de la Argentina: sistematización de una experiencia

Author

Mayorga, Marisol, Kohl, Jon, Sharp, Ryan L., and Brownlee, Matthew T.J.

Abstract

Este año se cumplen 200 años de relaciones diplomáticas entre Estados Unidos y Argentina, que han implicado la cooperación en una amplia gama de campos, incluido el turismo. En procura de identificar nuevos enfoques para mejorar la capacidad de los parques nacionales para la planificación y gestión del uso público que sean de mutuo beneficio y desarrollar otras formas de ofrecer experiencias de mayor calidad a los visitantes, la Embajada de los Estados Unidos de América en Buenos Aires, la Sociedad George Wright, el Servicio de Parques Nacionales de los Estados Unidos y la Administración de Parques Nacionales de la Argentina propusieron el “Programa Binacional de Intercambio para Mejorar las Experiencias de los Visitantes en los Parques Nacionales” como un intercambio de aprendizaje conjunto entre los dos países. Este artículo presenta la sistematización de la experiencia de la aplicación y adaptación del Modelo Interinstitucional de Manejo de Visitantes de los Estados Unidos de América para la gestión del uso público en cinco parques nacionales de la Argentina. Ofrece una visión general del marco, resume el proyecto desarrollado con los parques y, lo que es más importante, discute las lecciones aprendidas y las recomendaciones para la futura implementación del modelo en Argentina, y posiblemente, en otros países de América Latina.

Published
2024

25. Implementation of a public use management model in Argentinian National Parks: Lessons learned

Author

Mayorga, Marisol, Kohl, Jon, Sharp, Ryan L., and Brownlee, Matthew T.J.

Abstract

This year marks 200 years of diplomatic relations between the United States and Argentina, which has involved cooperation across a wide range of fields, including tourism. In the interest of finding new approaches to improve the capacity of nation­al parks for public use planning and management and develop mutually beneficial ways to deliver higher-quality visitor experiences, the United States of America Embassy in Buenos Aires, the George Wright Society, the US National Park Service, and the Administration of National Parks in Argentina proposed the “Binational Exchange Program to Enhance Visitor Experiences in National Parks” as a co-learning exchange between the two countries. Through a critical review, this article focuses on the application and adaptation of the US Interagency Visitor Use Management Framework for public use management in five national parks in Argentina. The article offers an overview of the framework, summarizes the project developed with the parks, and, more importantly, discusses lessons learned and recommendations for future implementation of the model in Argentina and, possibly, other countries in Latin America.

Published
2024

26. Complexes of tubulin oligomers and tau form a viscoelastic intervening network cross-bridging microtubules into bundles.

Author

Kohl, Phillip, Song, Chaeyeon, Fletcher, Bretton, Best, Rebecca, Tchounwou, Christine, Garcia Arceo, Ximena, Chung, Peter, Miller, Herbert, Wilson, Leslie, Choi, Myung, Li, Youli, Feinstein, Stuart, and Safinya, Cyrus

Subjects
Microtubules, Scattering, Small Angle, tau Proteins, Tubulin, X-Ray Diffraction, Humans
Abstract

The axon-initial-segment (AIS) of mature neurons contains microtubule (MT) fascicles (linear bundles) implicated as retrograde diffusion barriers in the retention of MT-associated protein (MAP) tau inside axons. Tau dysfunction and leakage outside of the axon is associated with neurodegeneration. We report on the structure of steady-state MT bundles in varying concentrations of Mg2+ or Ca2+ divalent cations in mixtures containing αβ-tubulin, full-length tau, and GTP at 37 °C in a physiological buffer. A concentration-time kinetic phase diagram generated by synchrotron SAXS reveals a wide-spacing MT bundle phase (Bws), a transient intermediate MT bundle phase (Bint), and a tubulin ring phase. SAXS with TEM of plastic-embedded samples provides evidence of a viscoelastic intervening network (IN) of complexes of tubulin oligomers and tau stabilizing MT bundles. In this model, αβ-tubulin oligomers in the IN are crosslinked by taus MT binding repeats, which also link αβ-tubulin oligomers to αβ-tubulin within the MT lattice. The model challenges whether the cross-bridging of MTs is attributed entirely to MAPs. Tubulin-tau complexes in the IN or bound to isolated MTs are potential sites for enzymatic modification of tau, promoting nucleation and growth of tau fibrils in tauopathies.

Published
2024

27. Quaternion-Aligned Electroanatomical Models of the Murine Atria from Standard-Output Functional and Structural Imaging

Author

Tumlinson, Gavin, Chleilat, Enaam, Madl, Josef, Kohl, Peter, and Timmermann, Viviane

Subjects
Physics - Biological Physics, Mathematical Physics
Abstract

Our evolving understanding of the heterocellular cardiac environment demands innovative tools for its study. While murine models are lauded for their versatility and accessibility, they are constrained by scale; tools designed for larger subjects are unsuitable in mice. Advanced techniques, such as optical trans-membrane potential mapping and three-dimensional microscopy may fill this void. To enhance the utility of these methods, we developed a novel cross-correlation technique grounded in quaternion mathematics. The successful integration of multimodal observations represents a significant advancement in our ability to study cardiac electrophysiology in murine models, providing insight into mechanisms previously unexplored due to technical constraints., Comment: 3 pages; 1 figure; methods paper

Published
2023

28. Travel Health-Related Preparation Practices of Institutions of Higher Education and Occurrence of Health-Related Events among Undergraduate Students Studying Abroad, 2018-2021

Author

Kristina M. Angelo, Kaitlyn Ciampaglio, Julie Richards, Anjali Silva, Catherine Ebelke, Gerard T. Flaherty, Gary Brunette, and Sarah Kohl

Abstract

Background: Knowledge of specific health-related events encountered by students studying abroad and the availability and use of pre-travel healthcare for these students is lacking. Methods: Anonymous web-based questionnaires were sent to study abroad offices, student health centers, and undergraduate students after studying abroad at eight institutions of higher education in the United States and Ireland from 2018-2021. Analyses were descriptive; relative risks and 95% confidence intervals were calculated for health-related events. Results: One study abroad office required a pre-travel consultation. All student health centers had pre-travel counseling available. Among 686 students, there were 307 infectious and 1,588 non-infectious health-related issues; 12 students (2%) were hospitalized. Duration of travel and timing of a pre-travel consultation impacted the risk of health-related events. Certain mental health conditions were associated with increased risk of alcohol and drug use. Conclusion: Future studies should address the optimal timing and best practices to optimize health for students studying abroad.

Published
2024
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29. Large Language Models for Fault Detection in Buildings’ HVAC Systems

Author

Langer, Gerda, Hirsch, Thomas, Kern, Roman, Kohl, Theresa, Schweiger, Gerald, Goos, Gerhard, Series Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Jørgensen, Bo Nørregaard, editor, Ma, Zheng Grace, editor, Wijaya, Fransisco Danang, editor, Irnawan, Roni, editor, and Sarjiya, Sarjiya, editor

Published
2025
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30. Earth System Reanalysis in Support of Climate Model Improvements

Author

Stammer, Detlef, Amrhein, Daniel E., Balmaseda, Magdalena Alonso, Bertino, Laurent, Bonavita, Massimo, Buontempo, Carlo, Caltabiano, Nico, Counillon, Francois, Fenty, Ian, Ferrari, Raffaele, Fujii, Yosuke, Gaikwad, Shreyas Sunil, Gentine, Pierre, Gettelman, Andrew, Gopalakrishnan, Ganesh, Heimbach, Patrick, Hersbach, Hans, Hill, Chris, Kobayashi, Shinya, Kohl, Armin, Kushner, Paul J., Mazloff, Matthew, Nakamura, Hisashi, Penny, Stephen G., Slivinski, Laura, Tegtmeier, Susann, and Zanna, Laure

Subjects
Climate models -- Conferences, meetings and seminars -- Innovations -- Forecasts and trends, Market trend/market analysis, Business, Earth sciences, American Meteorological Society -- Conferences, meetings and seminars
Abstract

Improving Climate Models and Projections Using Observations Workshop 2023 What: More than 70 experts from research and operational centers came together in a hybrid meeting held at the Massachusetts Institute [...]

Published
2024
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37. Long-term immune response to SARS-CoV-2 infection and vaccination in children and adolescents

Author

Messiah, Sarah E., Talebi, Yashar, Swartz, Michael D., Sabharwal, Rachit, Han, Haoting, Bergqvist, Emma, Kohl, III, Harold W., Valerio-Shewmaker, Melissa, DeSantis, Stacia M., Yaseen, Ashraf, Kelder, Steven H., Ross, Jessica, Padilla, Lindsay N., Gonzalez, Michael O., Wu, Leqing, Lakey, David, Shuford, Jennifer A., Pont, Stephen J., and Boerwinkle, Eric

Published
2024
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46. A Proposal for a Lean and Functional Delivery versus Payment across two Blockchains

Author

Fries, Christian P. and Kohl-Landgraf, Peter

Subjects
Computer Science - Cryptography and Security, E.4
Abstract

We propose a lean and functional transaction scheme to establish a secure delivery-versus-payment across two blockchains, where a) no intermediary is required and b) the operator of the payment chain/payment system has a small overhead and does not need to store state. The main idea comes with two requirements: First, the payment chain operator hosts a stateless decryption service that allows decrypting messages with his secret key. Second, a "Payment Contract" is deployed on the payment chain that implements a function transferAndDecrypt(uint id, address from, address to, string keyEncryptedSuccess, string keyEncryptedFail) that processes the (trigger-based) payment and emits the decrypted key depending on the success or failure of the transaction. The respective key can then trigger an associated transaction, e.g. claiming delivery by the buyer or re-claiming the locked asset by the seller.

Published
2023

47. Nuclear density dependence of polarization transfer in quasi-elastic ${\rm A}(\vec{e},e' \vec{p})$ reactions

Author

Kolar, T., Cosyn, W., Giusti, C., Achenbach, P., Ashkenazi, A., Böhm, R., Bosnar, D., Brecelj, T., Christmann, M., Cohen, E. O., Distler, M. O., Doria, L., Eckert, P., Esser, A., Gilman, R., Geimer, J., Gülker, P., Hoek, M., Izraeli, D., Kegel, S., Klag, P., Kohl, Y., Korover, I., Lichtenstadt, J., Littich, M., Manoussos, T., Mardor, I., Markus, D., Merkel, H., Mihovilovič, M., Müller, J., Müller, U., Olivenboim, M., Pätschke, J., Paul, S. J., Piasetzky, E., Plura, S., Pochodzalla, J., Požun, M., Ron, G., Schlimme, B. S., Schoth, M., Schulz, F., Sfienti, C., Stengel, S., Spreckels, R., Štajner, S., Stephan, E., Strauch, S., Szyszka, C., Širca, S., Thiel, M., Weber, A., Wilczek, A., and Yaron, I.

Subjects
Nuclear Experiment, Nuclear Theory
Abstract

The ratio of the transverse and longitudinal component of polarization transfer to protons in quasi-elastic $(\vec{e}, e^{\prime} \vec{p}\,)$ reaction, $P^{\prime}_x/P^{\prime}_z$, is sensitive to the proton's electromagnetic form factor ratio, $G_E/G_M$. To explore density-dependent in-medium modifications, a comparison of polarization transfer ratios involving protons from distinct nuclear shells, each with different local nuclear densities, has been proposed. In this study, we present such comparisons between four shells, $1s_{1/2}$, $1p_{3/2}$ in $^{12}\mathrm{C}$ and $1d_{3/2}$, $2s_{1/2}$ in $^{40}\mathrm{Ca}$. In an effort to account for other many-body effects that may differ between shells, we use state-of-the-art relativistic distorted-wave impulse-approximation (RDWIA) calculation and present the double ratios, $(P^{\prime}_x/P^{\prime}_z)_{\rm Data}/(P^{\prime}_x/P^{\prime}_z)_{\rm RDWIA}$ as well as the super ratios, $\left[(P^{\prime}_x/P^{\prime}_z)_{\rm A}/(P^{\prime}_x/P^{\prime}_z)_{\rm B}\right]_{\rm Data}/\left[(P^{\prime}_x/P^{\prime}_z)_{\rm A}/(P^{\prime}_x/P^{\prime}_z)_{\rm B}\right]_{\rm RDWIA}$, for chosen shells A and B, as a function of effective local nuclear densities. We find that double ratios for individual shells show a dependence on the probed effective nuclear densities. Studying the ratios, we observed a systematic variation between pairs of higher- and lower-density shells.

Published
2023

48. Blinding for precision scattering experiments: The MUSE approach as a case study

Author

Bernauer, J. C., Cline, E. W., Atac, H., Briscoe, W. J., Ndukwe, A. Christopher, Downie, E. J., Fernando, I. P., Gautam, T., Gilman, R., Goldin, R., Kohl, M., Lavrukhin, I., Lin, W., Lorenzon, W., Mohanmurthy, P., Nazeer, S. J., Nicol, M., Patel, T., Prosnyakov, A., Ransome, R. D., Ratvasky, R., Reid, H., Reimer, P. E., Ron, G., Rostomyan, T., Ruimi, O. M., Salamone, K., Sparveris, N., Strauch, S., and Yaari, D. A.

Subjects
Physics - Data Analysis, Statistics and Probability, Nuclear Experiment
Abstract

Human bias is capable of changing the analysis of measured data sufficiently to alter the results of an experiment. It is incumbent upon modern experiments, especially those investigating quantities considered contentious in the broader community, to blind their analysis in an effort to minimize bias. The choice of a blinding model is experiment specific, but should also aim to prevent accidental release of results before an analysis is finalized. In this paper, we discuss common threats to an unbiased analysis, as well as common quantities that can be blinded in different types of nuclear physics experiments. We use the Muon Scattering Experiment as an example, and detail the blinding scheme used therein., Comment: 6 pages, 3 figures

Published
2023

49. RecycleNet: Latent Feature Recycling Leads to Iterative Decision Refinement

Author

Koehler, Gregor, Wald, Tassilo, Ulrich, Constantin, Zimmerer, David, Jaeger, Paul F., Franke, Jörg K. H., Kohl, Simon, Isensee, Fabian, and Maier-Hein, Klaus H.

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite the remarkable success of deep learning systems over the last decade, a key difference still remains between neural network and human decision-making: As humans, we cannot only form a decision on the spot, but also ponder, revisiting an initial guess from different angles, distilling relevant information, arriving at a better decision. Here, we propose RecycleNet, a latent feature recycling method, instilling the pondering capability for neural networks to refine initial decisions over a number of recycling steps, where outputs are fed back into earlier network layers in an iterative fashion. This approach makes minimal assumptions about the neural network architecture and thus can be implemented in a wide variety of contexts. Using medical image segmentation as the evaluation environment, we show that latent feature recycling enables the network to iteratively refine initial predictions even beyond the iterations seen during training, converging towards an improved decision. We evaluate this across a variety of segmentation benchmarks and show consistent improvements even compared with top-performing segmentation methods. This allows trading increased computation time for improved performance, which can be beneficial, especially for safety-critical applications., Comment: Accepted at 2024 Winter Conference on Applications of Computer Vision (WACV)

Published
2023

50. Benchmarking Autoregressive Conditional Diffusion Models for Turbulent Flow Simulation

Author

Kohl, Georg, Chen, Li-Wei, and Thuerey, Nils

Subjects
Computer Science - Machine Learning, Physics - Fluid Dynamics
Abstract

Simulating turbulent flows is crucial for a wide range of applications, and machine learning-based solvers are gaining increasing relevance. However, achieving temporal stability when generalizing to longer rollout horizons remains a persistent challenge for learned PDE solvers. In this work, we analyze if fully data-driven fluid solvers that utilize an autoregressive rollout based on conditional diffusion models are a viable option to address this challenge. We investigate accuracy, posterior sampling, spectral behavior, and temporal stability, while requiring that methods generalize to flow parameters beyond the training regime. To quantitatively and qualitatively benchmark the performance of a range of flow prediction approaches, three challenging scenarios including incompressible and transonic flows, as well as isotropic turbulence are employed. We find that even simple diffusion-based approaches can outperform multiple established flow prediction methods in terms of accuracy and temporal stability, while being on par with state-of-the-art stabilization techniques like unrolling at training time. Such traditional architectures are superior in terms of inference speed, however, the probabilistic nature of diffusion approaches allows for inferring multiple predictions that align with the statistics of the underlying physics. Overall, our benchmark contains three carefully chosen data sets that are suitable for probabilistic evaluation alongside various established flow prediction architectures., Comment: Source code available at https://github.com/tum-pbs/autoreg-pde-diffusion and further information and videos at https://ge.in.tum.de/publications/2023-acdm-kohl

Published
2023

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