Your search keyword '"Fiebig, P"' showing total 1,204 results

1. Dynamic control of ferroic domain patterns by thermal quenching

Author

Horstmann, Jan Gerrit, Hassanpour, Ehsan, Zemp, Yannik, Lottermoser, Thomas, Weber, Mads C., and Fiebig, Manfred

Subjects

Condensed Matter - Materials Science

Abstract

Controlling the domain structure of ferroic materials is key to manipulating their functionality. Typically, quasi-static electric, magnetic, or strain fields are exploited to transform or pole ferroic domains. In contrast, metallurgy makes use of fast thermal quenches across phase transitions to create new functional states and domain structures. This approach employs the rapid temporal evolution of systems far from equilibrium to overcome the constraints imposed by comparably slow interactions. However, guiding the nonequilibrium evolution of domains towards otherwise inaccessible configurations remains largely unexplored in ferroics. Here, we harness thermal quenches to exert control over a ferroic domain pattern. Cooling at variable speed triggers transitions between two ferroic phases in a rare-earth orthoferrite, with transient domain evolution enabling the selection of the final domain pattern. Specifically, by tuning the quench rate, we can either generate the intrinsic domain structure of the low-temperature phase or transfer the original pattern of the high-temperature phase - creating a hidden metastable domain configuration inaccessible at thermal equilibrium. Real-time imaging during rapid quenching reveals two distinct time scales governing domain evolution: a fast fragmentation phase, followed by a slower relaxation towards a new pattern or back to the original one. This dynamic control of domain configurations, alongside external fields, strain engineering, and all-optical switching, offers a novel approach for actively manipulating ferroic order., Comment: 23 pages, 9 figures

Published

2024

2. Discovery of a non-Hermitian phase transition in a bulk condensed-matter system

Author

Li, Jingwen, Turaev, Michael, Matsubara, Masakazu, Kliemt, Kristin, Krellner, Cornelius, Pal, Shovon, Fiebig, Manfred, and Kroha, Johann

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Statistical Mechanics, Quantum Physics

Abstract

Phase transitions are fundamental in nature. A small parameter change near a critical point leads to a qualitative change in system properties. Across a regular phase transition, the system remains in thermal equilibrium and, therefore, experiences a change of static properties, like the emergence of a magnetisation upon cooling a ferromagnet below the Curie temperature. When driving a system far from equilibrium, novel, otherwise inaccessible quantum states of matter may arise. Such states are typically non-Hermitian, that is, their dynamics break time-reversal symmetry, a basic law of equilibrium physics. Phase transitions in non-Hermitian systems are of fundamentally new nature in that the dynamical behaviour rather than static properties may undergo a qualitative change at a critical, here called exceptional point. Here we experimentally realize a non-Hermitian phase transition in a bulk condensed-matter system. Optical excitation creates charge carriers in the ferromagnetic semiconductor EuO. In a temperature-dependent interplay with the Hermitian transition to ferromagnetic order, a non-Hermitian change of the relaxation dynamics occurs, manifesting in our time-resolved reflection data as a transition from bi-exponential real to single-exponential complex decay. Our theory models this behavior and predicts non-Hermitian phase transitions for a large class of condensed-matter systems, where they may be exploited to sensitively control bulk-dynamic properties., Comment: 15 pages, 10 figures

Published

2024

3. Zero-Shot Prompting Approaches for LLM-based Graphical User Interface Generation

Author

Kolthoff, Kristian, Kretzer, Felix, Fiebig, Lennart, Bartelt, Christian, Maedche, Alexander, and Ponzetto, Simone Paolo

Subjects

Computer Science - Software Engineering

Abstract

Graphical user interface (GUI) prototyping represents an essential activity in the development of interactive systems, which are omnipresent today. GUI prototypes facilitate elicitation of requirements and help to test, evaluate, and validate ideas with users and the development team. However, creating GUI prototypes is a time-consuming process and often requires extensive resources. While existing research for automatic GUI generation focused largely on resource-intensive training and fine-tuning of LLMs, mainly for low-fidelity GUIs, we investigate the potential and effectiveness of Zero-Shot (ZS) prompting for high-fidelity GUI generation. We propose a Retrieval-Augmented GUI Generation (RAGG) approach, integrated with an LLM-based GUI retrieval re-ranking and filtering mechanism based on a large-scale GUI repository. In addition, we adapt Prompt Decomposition (PDGG) and Self-Critique (SCGG) for GUI generation. To evaluate the effectiveness of the proposed ZS prompting approaches for GUI generation, we extensively evaluated the accuracy and subjective satisfaction of the generated GUI prototypes. Our evaluation, which encompasses over 3,000 GUI annotations from over 100 crowd-workers with UI/UX experience, shows that SCGG, in contrast to PDGG and RAGG, can lead to more effective GUI generation, and provides valuable insights into the defects that are produced by the LLMs in the generated GUI prototypes.

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. Period patterns, entry points, and orders in the Lucas sequences: theory and applications

Author

Fiebig, Morgan, Mbirika, aBa, and Spilker, Jürgen

Subjects

Mathematics - Number Theory, Mathematics - Combinatorics, 11B39 (Primary), 11B50 (Secondary)

Abstract

The goal of this paper is twofold: (1) extend theory on certain statistics in the Fibonacci and Lucas sequences modulo $m$ to the Lucas sequences $U := \left(U_n(p,q)\right)_{n \geq 0}$ and $V := \left(V_n(p,q)\right)_{n \geq 0}$, and (2) apply some of this theory to a novel graphical approach of $U$ and $V$ modulo $m$. Upon placing the cycle of repeating sequence terms in a circle, several fascinating patterns which would otherwise be overlooked emerge. We generalize a wealth of known Fibonacci and Lucas statistical identities to the $U$ and $V$ settings using primary sources such as Lucas in 1878, Carmichael in 1913, Wall in 1960, and Vinson in 1963, amongst others. We use many of these generalized identities to form the theoretical basis for our graphical results. Based on the order of $m$, defined as $\omega(m) := \frac{\pi(m)}{e(m)}$, where $\pi(m)$ is the period of $m$ and $e(m)$ is the entry point of $m$, we describe behaviors shared by $U$ and $V$ with parameters $q = \pm 1$. In particular, we exhibit some tantalizing examples in the following three sequence pairs: Fibonacci and Lucas, Pell and associated Pell, and balancing and Lucas-balancing., Comment: 34 pages, accepted version to appear in the journal Fibonacci Quarterly

Published

2024

6. Missing spectral weight in a heavy-fermion system far above N\'eel temperature

Author

Li, Jingwen, Priyadarshi, Debankit, Yang, Chia-Jung, Pohl, Ulli, Stockert, Oliver, von Löhneysen, Hilbert, Pal, Shovon, Fiebig, Manfred, and Kroha, Johann

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The competition between the Kondo spin-screening effect and the Ruderman-Kittel-Kasuya-Yosida (RKKY) interaction in heavy-fermion systems drives the quantum phase transition between the magnetically ordered and the heavy-Fermi-liquid ground states. Despite intensive investigations of heavy quasiparticles on the Kondo-screened side of the quantum phase transition and of their breakdown at the quantum critical point, the magnetically ordering side has not systematically been studied. Using terahertz time-domain spectroscopy, we report a suppression of the Kondo quasiparticle weight in CeCu$_{6-x}$Au$_x$ samples on the antiferromagnetic side of the quantum phase transition at temperatures as much as two orders of magnitude above the N\'{e}el temperature $T_\text{N}$. With our systematic investigations into the high-temperature, paramagnetic region on the antiferromagnetic side of the phase diagram of CeCu$_{6-x}$Au$_x$, i.e., with $x =$ 0.2, 0.3, and 0.5, we show that the suppression results from a quantum frustration effect induced by the temperature-independent RKKY interaction. Hence, our results emphasize that besides critical fluctuations, the RKKY interaction may play an important role in the quantum-critical scenario., Comment: 6 pages, 4 figures

Published

2024

7. Magnetoelectric phase control at domain-wall-like epitaxial oxide multilayers

Author

Gradauskaite, Elzbieta, Yang, Chia-Jung, Pal, Shovon, Fiebig, Manfred, and Trassin, Morgan

Subjects

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

Abstract

Ferroelectric domain walls are nanoscale objects that can be created, positioned, and erased on demand. They often embody functional properties that are distinct from the surrounding bulk material. Enhanced conductivity, for instance, is observed at charged ferroelectric domain walls. Regrettably, domain walls of this type are scarce because of the energetically unfavorable electrostatics. This hinders the current technological development of domain-wall nanoelectronics. Here we overcome this constraint by creating robust domain-wall-like objects in epitaxial oxide heterostructures. We design charged head-to-head (HH) and tail-to-tail (TT) junctions with two ferroelectric layers (BaTiO$_{3}$ and BiFeO$_{3}$) that have opposing out-of-plane polarization. To test domain-wall-like functionalities, we insert an ultrathin ferromagnetic La$_{0.7}$Sr$_{0.3}$MnO$_{3}$ layer into the junctions. The interfacial electron or hole accumulation at the interfaces, set by the HH and TT polarization configurations, respectively, controls the LSMO conductivity and magnetization. We thus propose that trilayers reminiscent of artificial domain walls provide magnetoelectric functionality and may constitute an important building block in the design of oxide-based electronic devices., Comment: 28 pages, 4 figures

Published

2024

8. A barley pan-transcriptome reveals layers of genotype-dependent transcriptional complexity

Author

Guo, Wenbin, Schreiber, Miriam, Marosi, Vanda B., Bagnaresi, Paolo, Jørgensen, Morten Egevang, Braune, Katarzyna B., Chalmers, Ken, Chapman, Brett, Dang, Viet, Dockter, Christoph, Fiebig, Anne, Fincher, Geoffrey B., Fricano, Agostino, Fuller, John, Haaning, Allison, Haberer, Georg, Himmelbach, Axel, Jayakodi, Murukarthick, Jia, Yong, Kamal, Nadia, Langridge, Peter, Li, Chengdao, Lu, Qiongxian, Lux, Thomas, Mascher, Martin, Mayer, Klaus F. X., McCallum, Nicola, Milne, Linda, Muehlbauer, Gary J., Nielsen, Martin T. S., Padmarasu, Sudharsan, Pedas, Pai Rosager, Pillen, Klaus, Pozniak, Curtis, Rasmussen, Magnus W., Sato, Kazuhiro, Schmutzer, Thomas, Scholz, Uwe, Schüler, Danuta, Šimková, Hana, Skadhauge, Birgitte, Stein, Nils, Thomsen, Nina W., Voss, Cynthia, Wang, Penghao, Wonneberger, Ronja, Zhang, Xiao-Qi, Zhang, Guoping, Cattivelli, Luigi, Spannagl, Manuel, Bayer, Micha, Simpson, Craig, Zhang, Runxuan, and Waugh, Robbie

Published

2025

9. Transition transferases prime bacterial capsule polymerization

Author

Litschko, Christa, Di Domenico, Valerio, Schulze, Julia, Li, Sizhe, Ovchinnikova, Olga G., Voskuilen, Thijs, Bethe, Andrea, Cifuente, Javier O., Marina, Alberto, Budde, Insa, Mast, Tim A., Sulewska, Małgorzata, Berger, Monika, Buettner, Falk F. R., Lowary, Todd L., Whitfield, Chris, Codée, Jeroen D. C., Schubert, Mario, Guerin, Marcelo E., and Fiebig, Timm

Published

2025

10. Structural variation in the pangenome of wild and domesticated barley

Author

Jayakodi, Murukarthick, Lu, Qiongxian, Pidon, Hélène, Rabanus-Wallace, M. Timothy, Bayer, Micha, Lux, Thomas, Guo, Yu, Jaegle, Benjamin, Badea, Ana, Bekele, Wubishet, Brar, Gurcharn S., Braune, Katarzyna, Bunk, Boyke, Chalmers, Kenneth J., Chapman, Brett, Jørgensen, Morten Egevang, Feng, Jia-Wu, Feser, Manuel, Fiebig, Anne, Gundlach, Heidrun, Guo, Wenbin, Haberer, Georg, Hansson, Mats, Himmelbach, Axel, Hoffie, Iris, Hoffie, Robert E., Hu, Haifei, Isobe, Sachiko, König, Patrick, Kale, Sandip M., Kamal, Nadia, Keeble-Gagnère, Gabriel, Keller, Beat, Knauft, Manuela, Koppolu, Ravi, Krattinger, Simon G., Kumlehn, Jochen, Langridge, Peter, Li, Chengdao, Marone, Marina P., Maurer, Andreas, Mayer, Klaus F. X., Melzer, Michael, Muehlbauer, Gary J., Murozuka, Emiko, Padmarasu, Sudharsan, Perovic, Dragan, Pillen, Klaus, Pin, Pierre A., Pozniak, Curtis J., Ramsay, Luke, Pedas, Pai Rosager, Rutten, Twan, Sakuma, Shun, Sato, Kazuhiro, Schüler, Danuta, Schmutzer, Thomas, Scholz, Uwe, Schreiber, Miriam, Shirasawa, Kenta, Simpson, Craig, Skadhauge, Birgitte, Spannagl, Manuel, Steffenson, Brian J., Thomsen, Hanne C., Tibbits, Josquin F., Nielsen, Martin Toft Simmelsgaard, Trautewig, Corinna, Vequaud, Dominique, Voss, Cynthia, Wang, Penghao, Waugh, Robbie, Westcott, Sharon, Rasmussen, Magnus Wohlfahrt, Zhang, Runxuan, Zhang, Xiao-Qi, Wicker, Thomas, Dockter, Christoph, Mascher, Martin, and Stein, Nils

Published

2024

11. Magnetoelectric domain engineering from micrometer to {\AA}ngstr{\o}m scales

Author

Giraldo, Marcela, Simonov, Arkadiy, Sim, Hasung, Lotfy, Ahmed Samir, Lilienblum, Martin, Forster, Lea, Gradauskaite, Elzbieta, Trassin, Morgan, Park, Je-Geun, Lottermoser, Thomas, and Fiebig, Manfred

Subjects

Condensed Matter - Materials Science

Abstract

The functionality of magnetoelectric multiferroics depends on the formation, size, and coupling of their magnetic and electric domains. Knowing the parameters guiding these criteria is a key effort in the emerging field of magnetoelectric domain engineering. Here we show, using a combination of piezoresponse-force microscopy, non-linear optics, and x-ray scattering, that the correlation length setting the size of the ferroelectric domains in the multiferroic hexagonal manganites can be engineered from the micron range down to a few unit cells under the substitution of Mn$^{3+}$ ions with Al$^{3+}$ ions. The magnetoelectric coupling mechanism between the antiferromagnetic Mn$^{3+}$ order and the distortive-ferroelectric order remains intact even at substantial replacement of Mn$^{3+}$ by Al$^{3+}$. Hence, chemical substitution proves to be an effective tool for domain-size engineering in one of the most studied classes of multiferroics., Comment: 10 pages, 8 figures

Published

2024

12. 2024 roadmap on magnetic microscopy techniques and their applications in materials science

Author

Christensen, DV, Staub, U, Devidas, TR, Kalisky, B, Nowack, KC, Webb, JL, Andersen, UL, Huck, A, Broadway, DA, Wagner, K, Maletinsky, P, van der Sar, T, Du, CR, Yacoby, A, Collomb, D, Bending, S, Oral, A, Hug, HJ, Mandru, A-O, Neu, V, Schumacher, HW, Sievers, S, Saito, H, Khajetoorians, AA, Hauptmann, N, Baumann, S, Eichler, A, Degen, CL, McCord, J, Vogel, M, Fiebig, M, Fischer, P, Hierro-Rodriguez, A, Finizio, S, Dhesi, SS, Donnelly, C, Büttner, F, Kfir, O, Hu, W, Zayko, S, Eisebitt, S, Pfau, B, Frömter, R, Kläui, M, Yasin, FS, McMorran, BJ, Seki, S, Yu, X, Lubk, A, Wolf, D, Pryds, N, Makarov, D, and Poggio, M

Subjects

Macromolecular and Materials Chemistry, Chemical Sciences, Physical Chemistry, Engineering, Materials Engineering, magnetic microscopy, magnetism, electron transport, spin dynamics, 2D materials, multiferroics, superconductors, MSD-Magnetic Materials, Macromolecular and materials chemistry, Physical chemistry, Materials engineering

Abstract

Considering the growing interest in magnetic materials for unconventional computing, data storage, and sensor applications, there is active research not only on material synthesis but also characterisation of their properties. In addition to structural and integral magnetic characterisations, imaging of magnetisation patterns, current distributions and magnetic fields at nano- and microscale is of major importance to understand the material responses and qualify them for specific applications. In this roadmap, we aim to cover a broad portfolio of techniques to perform nano- and microscale magnetic imaging using superconducting quantum interference devices, spin centre and Hall effect magnetometries, scanning probe microscopies, x-ray- and electron-based methods as well as magnetooptics and nanoscale magnetic resonance imaging. The roadmap is aimed as a single access point of information for experts in the field as well as the young generation of students outlining prospects of the development of magnetic imaging technologies for the upcoming decade with a focus on physics, materials science, and chemistry of planar, three-dimensional and geometrically curved objects of different material classes including two-dimensional materials, complex oxides, semi-metals, multiferroics, skyrmions, antiferromagnets, frustrated magnets, magnetic molecules/nanoparticles, ionic conductors, superconductors, spintronic and spinorbitronic materials.

Published

2024

13. Urogeriatrisches Denken am Beispiel der antiandrogenen Therapie des Prostatakarzinoms

Author

Wiedemann, A., Manseck, A., Stein, J., Fröhner, M., Fiebig, C., Piotrowski, A., and Kirschner-Hermanns, R.

Published

2024

14. Terahertz crystal electric field transitions in a Kondo-lattice antiferromagnet

Author

Shee, Payel, Yang, Chia-Jung, Pandey, Shishir Kumar, Nandy, Ashis Kumar, Kulkarni, Ruta, Thamizhavel, Arumugam, Fiebig, Manfred, and Pal, Shovon

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

Hybridization between the localized f-electrons and the delocalized conduction electrons together with the crystal electric field (CEF) play a determinant role in governing the many-body ground state of a correlated-electron system. Here, we investigate the low-energy CEF states in CeAg_2Ge_2, a prototype Kondo-lattice antiferromagnet where Kondo correlation is found to exist within the antiferromagnetic phase. Using time-domain THz reflection spectroscopy, we show the first direct evidence of two low-energy CEF transitions at 0.6 THz (2.5 meV) and 2.1 THz (8.7 meV). The presence of low-frequency infrared-active phonon modes further manifests as a Fano-modified lineshape of the 2.1 THz CEF conductivity peak. The temporal spectral weights obtained directly from the THz time traces, in addition, corroborate the corresponding CEF temperature scales of the compound., Comment: 10 pages, 6 figures

Published

2024

15. Ruddlesden-Popper and perovskite phases as a material platform for altermagnetism

Author

Bernardini, F., Fiebig, M., and Cano, A.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity

Abstract

The subclass of collinear antiferromagnets where spin Kramers degeneracy is broken -- resulting in ferromagnetic-like properties -- offers exciting new opportunities in magnetism and hence motivates the reasoned expansion of the material base for these so-called altermagnets. Here, we show that Ruddlesden-Popper and perovskite phases are generic hosts for altermagnetic behavior. Using first-principles calculations, we demonstrate altermagnetism in prototypical nickel-based systems such as La$_2$NiO$_4$ and identify additional candidates, including the superconducting La$_3$Ni$_3$O$_7$ and the multiferroic BiFeO$_3$. These materials span insulating, semiconducting, and metallic conduction types, with computed nonrelativistic spin splittings reaching up to 250~meV. Our analysis also reveals the presence of accidental nodes and distinct topologies in the spin-momentum texture at the Brillouin-zone boundary, suggesting a refined classification for altermagnetic materials beyond the $d$-wave or higher even-parity wave classes. In addition, we address formal inconsistencies in the traditional classification of magnetically ordered systems, proposing resolutions grounded in the altermagnetic framework, and point out the potential for altermagnetic behavior in systems beyond collinear antiferromagnets with perfectly compensated magnetization, broadening the scope for future exploration., Comment: v1: 7 pages, 5 figures, 1 table; v2: 8 pages, 5 figures, 1 table, additional references

Published

2024

16. 2024 Roadmap on Magnetic Microscopy Techniques and Their Applications in Materials Science

Author

Christensen, D. V., Staub, U., Devidas, T. R., Kalisky, B., Nowack, K. C., Webb, J. L., Andersen, U. L., Huck, A., Broadway, D. A., Wagner, K., Maletinsky, P., van der Sar, T., Du, C. R., Yacoby, A., Collomb, D., Bending, S., Oral, A., Hug, H. J., Mandru, A. -O., Neu, V., Schumacher, H. W., Sievers, S., Saito, H., Khajetoorians, A. A., Hauptmann, N., Baumann, S., Eichler, A., Degen, C. L., McCord, J., Vogel, M., Fiebig, M., Fischer, P., Hierro-Rodriguez, A., Finizio, S., Dhesi, S. S., Donnelly, C., Büttner, Felix, Kfir, O., Hu, W., Zayko, S., Eisebitt, S., Pfau, B., Frömter, R., Kläui, M., Yasin, F. S., McMorran, B. J., Seki, S., Yu, X., Lubk, A., Wolf, D., Pryds, N., Makarov, D., and Poggio, M.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Superconductivity, Quantum Physics

Abstract

Considering the growing interest in magnetic materials for unconventional computing, data storage, and sensor applications, there is active research not only on material synthesis but also characterisation of their properties. In addition to structural and integral magnetic characterisations, imaging of magnetization patterns, current distributions and magnetic fields at nano- and microscale is of major importance to understand the material responses and qualify them for specific applications. In this roadmap, we aim to cover a broad portfolio of techniques to perform nano- and microscale magnetic imaging using SQUIDs, spin center and Hall effect magnetometries, scanning probe microscopies, x-ray- and electron-based methods as well as magnetooptics and nanoMRI. The roadmap is aimed as a single access point of information for experts in the field as well as the young generation of students outlining prospects of the development of magnetic imaging technologies for the upcoming decade with a focus on physics, materials science, and chemistry of planar, 3D and geometrically curved objects of different material classes including 2D materials, complex oxides, semi-metals, multiferroics, skyrmions, antiferromagnets, frustrated magnets, magnetic molecules/nanoparticles, ionic conductors, superconductors, spintronic and spinorbitronic materials.

Published

2024

17. Kondo coherence versus superradiance in THz radiation-driven heavy-fermion systems

Author

Yang, Chia-Jung, Woerner, Michael, Stockert, Oliver, Loehneysen, Hilbert v., Kroha, Johann, Fiebig, Manfred, and Pal, Shovon

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

In strongly correlated systems such as heavy-fermion materials, the coherent superposition of localized and mobile spin states leads to the formation of Kondo resonant states, which on a dense, periodic array of Kondo ions develop lattice coherence. Characteristically, these quantum-coherent superposition states respond to a terahertz (THz) excitation by a delayed THz pulse on the scale of the material's Kondo energy scale and, hence, independent of the pump-light intensity. However, delayed response is also typical for superradiance in an ensemble of excited atoms. In this case, quantum coherence is established by the coupling to an external, electromagnetic mode and, hence, dependent on the pump-light intensity. In the present work, we investigate the physical origin of the delayed pulse, i.e., inherent, correlation-induced versus light-induced coherence, in the prototypical heavy-fermion compound CeCu_5.9Au_0.1. We study the delay, duration and amplitude of the THz pulse at various temperatures in dependence on the electric-field strength of the incident THz excitation, ranging from 0.3 to 15.2 kV/cm. We observe a robust delayed response at approximately 6 ps with an amplitude proportional to the amplitude of the incident THz wave. This is consistent with theoretical expectation for the Kondo-like coherence and thus provides compelling evidence for the dominance of condensed-matter versus optical coherence in the heavy-fermion compound., Comment: 6 pages, 2 figures

Published

2023

18. Dual clumped isotopes from Mid-Eocene bivalve shell reveal a hot and summer wet climate of the Paris Basin

Author

Kniest, Jorit F., Davies, Amelia J., Brugger, Julia, Fiebig, Jens, Bernecker, Miguel, Todd, Jonathan A., Hickler, Thomas, Voigt, Silke, Woodland, Alan, and Raddatz, Jacek

Published

2024

19. Systematic review of the effectiveness of standalone passive countermeasures on microgravity-induced physiologic deconditioning

Author

Ahmed, Syed Shozab, Goswami, Nandu, Sirek, Adam, Green, David Andrew, Winnard, Andrew, Fiebig, Leonie, and Weber, Tobias

Published

2024

20. Antibody-dependent enhancement of toxicity of myotoxin II from Bothrops asper

Author

Sørensen, Christoffer V., Fernández, Julián, Adams, Anna Christina, Wildenauer, Helen H. K., Schoffelen, Sanne, Ledsgaard, Line, Pucca, Manuela B., Fiebig, Michael, Cerni, Felipe A., Tulika, Tulika, Voldborg, Bjørn G., Karatt-Vellatt, Aneesh, Morth, J. Preben, Ljungars, Anne, Grav, Lise M., Lomonte, Bruno, and Laustsen, Andreas H.

Published

2024

21. Genomic resources for a historical collection of cultivated two-row European spring barley genotypes

Author

Schreiber, Miriam, Wonneberger, Ronja, Haaning, Allison M., Coulter, Max, Russell, Joanne, Himmelbach, Axel, Fiebig, Anne, Muehlbauer, Gary J., Stein, Nils, and Waugh, Robbie

Published

2024

22. Effect of the depolarizing field on the domain structure of an improper ferroelectric

Author

Müller, Aaron Merlin, Bortis, Amadé, Simonov, Arkadiy, Fiebig, Manfred, and Lottermoser, Thomas

Subjects

Condensed Matter - Materials Science

Abstract

We show that, contrary to common belief, the depolarizing electric field generated by bound charges at thin-film surfaces can have a substantial impact on the domain structure of an improper ferroelectric with topological defects. In hexagonal-manganite thin films, we observe in phase-field simulations that through the action of the depolarizing field, (i) the average magnitude of the polarization decreases, (ii) the local magnitude of the polarization decreases with increasing distance from the domain walls, and (iii) there is a significant alteration of the domain-size distribution and average domain size, which is visualized with the pair-correlation function. We conclude that, in general, it is not appropriate to ignore the effects of the depolarizing field for thin film ferroelectrics.

Published

2023

23. Representations and binomial coefficients

Author

Fiebig, Peter

Subjects

Mathematics - Representation Theory

Abstract

For a root system R, a field K and a "choice of coefficients in K" we define a category of graded spaces with operators and study some of its properties. Then we assume that the coefficients are given by quantum binomials. We use basic arithmetic properties of binomial coefficients (such as q-versions of Lucas' theorem and the Pfaff-Saalsch\"utz identity) to construct a Frobenius pull back functor and prove a Steinberg's tensor product formula. Then we show that these results imply the corresponding results for reductive algebraic groups in positive characteristics and for quantum groups at roots of unity., Comment: 32 pages, minor changes with respect to v1

Published

2023

24. Pressure-control of non-ferroelastic ferroelectric domains in ErMnO3

Author

Sandvik, O. W., Müller, A. M., Ånes, H. W., Zahn, M., He, J., Fiebig, M., Lottermoser, Th., Rojac, T., Meier, D., and Schultheiß, J.

Subjects

Condensed Matter - Materials Science

Abstract

Mechanical pressure controls the structural, electric, and magnetic order in solid state systems, allowing to tailor and improve their physical properties. A well-established example is ferroelastic ferroelectrics, where the coupling between pressure and the primary symmetry breaking order parameter enables hysteretic switching of the strain state and ferroelectric domain engineering. Here, we study the pressure-driven response in a non-ferroelastic ferroelectric, ErMnO3, where the classical stress-strain coupling is absent, and the domain formation is governed by creation-annihilation processes of topological defects. By annealing ErMnO3 polycrystals under variable pressures in the MPa-regime, we transform non-ferroelastic vortex-like domains into stripe-like domains. The width of the stripe-like domains is determined by the applied pressure as we confirm by three-dimensional phase field simulations, showing that pressure leads to highly oriented layer-like periodic domains. Our work demonstrates the possibility to utilize mechanical pressure for domain engineering in non-ferroelastic ferroelectrics, providing a processing-accessible lever to control their dielectric, electromechanical, and piezoelectric response.

Published

2023

25. Hebbian fast plasticity and working memory

Author

Lansner, Anders, Fiebig, Florian, and Herman, Pawel

Subjects

Quantitative Biology - Neurons and Cognition, Computer Science - Neural and Evolutionary Computing

Abstract

Theories and models of working memory (WM) were at least since the mid-1990s dominated by the persistent activity hypothesis. The past decade has seen rising concerns about the shortcomings of sustained activity as the mechanism for short-term maintenance of WM information in the light of accumulating experimental evidence for so-called activity-silent WM and the fundamental difficulty in explaining robust multi-item WM. In consequence, alternative theories are now explored mostly in the direction of fast synaptic plasticity as the underlying mechanism.The question of non-Hebbian vs Hebbian synaptic plasticity emerges naturally in this context. In this review we focus on fast Hebbian plasticity and trace the origins of WM theories and models building on this form of associative learning., Comment: 12 pages, 2 figures, 1 box, submitted

Published

2023

26. How Ready Is DNS for an IPv6-Only World?

Author

Streibelt, Florian, Sattler, Patrick, Lichtblau, Franziska, Gañán, Carlos H., Feldmann, Anja, Gasser, Oliver, and Fiebig, Tobias

Subjects

Computer Science - Networking and Internet Architecture

Abstract

DNS is one of the core building blocks of the Internet. In this paper, we investigate DNS resolution in a strict IPv6-only scenario and find that a substantial fraction of zones cannot be resolved. We point out, that the presence of an AAAA resource record for a zone's nameserver does not necessarily imply that it is resolvable in an IPv6-only environment since the full DNS delegation chain must resolve via IPv6 as well. Hence, in an IPv6-only setting zones may experience an effect similar to what is commonly referred to as lame delegation. Our longitudinal study shows that the continuing centralization of the Internet has a large impact on IPv6 readiness, i.e., a small number of large DNS providers has, and still can, influence IPv6 readiness for a large number of zones. A single operator that enabled IPv6 DNS resolution -- by adding IPv6 glue records -- was responsible for around 20.3% of all zones in our dataset not resolving over IPv6 until January 2017. Even today, 10% of DNS operators are responsible for more than 97.5% of all zones that do not resolve using IPv6.

Published

2023

27. Current-driven dynamics and ratchet effect of skyrmion bubbles in a ferrimagnetic insulator

Author

Vélez, Saül, Ruiz-Gómez, Sandra, Schaab, Jakob, Gradauskaite, Elzbieta, Wörnle, Martin S., Welter, Pol, Jacot, Benjamin J., Degen, Christian L., Trassin, Morgan, Fiebig, Manfred, and Gambardella, Pietro

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

Magnetic skyrmions are compact chiral spin textures that exhibit a rich variety of topological phenomena and hold potential for developing high-density memory devices and novel computing schemes driven by spin currents. Here, we demonstrate room temperature interfacial stabilization and current-driven control of skyrmion bubbles in the ferrimagnetic insulator Tm3Fe5O12 (TmIG) coupled to Pt. We track the current-induced motion of individual skyrmion bubbles. The ferrimagnetic order of the crystal together with the interplay of spin-orbit torques and pinning determine the skyrmion dynamics in TmIG and result in a strong skyrmion Hall effect characterized by a negative deflection angle and hopping motion. Further, we show that the velocity and depinning threshold of the skyrmion bubbles can be modified by exchange coupling TmIG to an in-plane magnetized Y3Fe5O12 layer, which distorts the spin texture of the skyrmions and leads to a directional-dependent rectification of their dynamics. This effect, which is equivalent to a magnetic ratchet, is exploited to control the skyrmion flow in a racetrack-like device., Comment: 52 pages, 24 figures (manuscript, extended data and supplementary information)

Published

2023

28. Defeating depolarizing fields with artificial flux closure in ultrathin ferroelectrics

Author

Gradauskaite, Elzbieta, Meier, Quintin N., Gray, Natascha, Campanini, Marco, Moran, Thomas, Huey, Bryan D., Rossell, Marta D., Fiebig, Manfred, and Trassin, Morgan

Subjects

Condensed Matter - Materials Science

Abstract

Material surfaces encompass structural and chemical discontinuities that often lead to the loss of the property of interest in the so-called dead layers. It is notably problematic in nanoscale oxide electronics, where the integration of strongly correlated materials into devices is obstructed by the thickness threshold required for the emergence of their functionality. Here, we report the stabilization of ultrathin out-of-plane ferroelectricity in oxide heterostructures through the design of an artificial flux-closure architecture. Inserting an in-plane polarized ferroelectric epitaxial buffer provides continuity of polarization at the interface, and despite its insulating nature we observe the emergence of polarization in our out-of-plane-polarized model ferroelectric BaTiO$_{3}$ from the very first unit cell. In BiFeO$_{3}$, the flux-closure approach stabilizes a conceptually novel 251$^{\circ}$ domain wall. Its unusual chirality is likely associated with the ferroelectric analog to the Dzyaloshinskii-Moriya interaction. We thus see that in an adaptively engineered geometry, the depolarizing-field-screening properties of an insulator can even surpass those of a metal and be a source of new functionalities. This should be a useful insight on the road towards the next generation of ferroelectric-based oxide electronics., Comment: 34 pages, 4 figures, 9 supplementary figures, 2 supplementary tables

Published

2022

29. Back-to-the-Future Whois: An IP Address Attribution Service for Working with Historic Datasets

Author

Streibelt, Florian, Lindorfer, Martina, Gürses, Seda, Gañán, Carlos H., and Fiebig, Tobias

Subjects

Computer Science - Networking and Internet Architecture

Abstract

Researchers and practitioners often face the issue of having to attribute an IP address to an organization. For current data this is comparably easy, using services like whois or other databases. Similarly, for historic data, several entities like the RIPE NCC provide websites that provide access to historic records. For large-scale network measurement work, though, researchers often have to attribute millions of addresses. For current data, Team Cymru provides a bulk whois service which allows bulk address attribution. However, at the time of writing, there is no service available that allows historic bulk attribution of IP addresses. Hence, in this paper, we introduce and evaluate our 'Back-to-the-Future whois' service, allowing historic bulk attribution of IP addresses on a daily granularity based on CAIDA Routeviews aggregates. We provide this service to the community for free, and also share our implementation so researchers can run instances themselves.

Published

2022

30. Critical slowing down of fermions near a magnetic quantum phase transition

Author

Yang, Chia-Jung, Kliemt, Kristin, Krellner, Cornelius, Kroha, Johann, Fiebig, Manfred, and Pal, Shovon

Subjects

Condensed Matter - Strongly Correlated Electrons, Physics - Optics

Abstract

A universal phenomenon in phase transitions is critical slowing down (CSD) - systems, after an initial perturbation, take an exceptionally long time to return to equilibrium. It is universally observed in the dynamics of bosonic excitations, like order-parameter collective modes, but it is not generally expected to occur for fermionic excitations because of the half-integer nature of the fermionic spin. Direct observation of CSD in fermionic excitations or quasiparticles would therefore be of fundamental significance. Here, we observe fermionic CSD in the heavy-fermion (HF) compound YbRh$_2$Si$_2$ by terahertz time-domain spectroscopy. HFs are compound objects with a strongly enhanced effective mass, composed of itinerant and localized electronic states. We see that near the quantum phase transition in YbRh$_2$Si$_2$ the build-up of spectral weight of the HFs towards the Kondo temperature $T_K\approx 25$ K is followed by a logarithmic rise of the quasiparticle excitation rate on the heavy-Fermi-liquid side of the quantum phase transition below $10$ K. A critical two-band HF liquid theory shows that this is indicative of fermionic CSD. This CSD is a clear indication that the HF quasiparticles experience a breakdown near the quantum phase transition, and the critical exponent of this breakdown introduces a classification of fermionic quantum phase transitions analogous to thermodynamic phase transitions - solution to a long-standing problem., Comment: 6 pages, 4 figures. Nature Phys. (2023)

Published

2022

31. Quantum tilting modules over local rings

Author

Fiebig, Peter

Subjects

Mathematics - Representation Theory, Mathematics - Quantum Algebra

Abstract

We show that tilting modules for quantum groups over local Noetherian domains exist and that the indecomposable tilting modules are parametrized by their highest weight. For this we introduce a model category ${\mathcal X}={\mathcal X}_{\mathscr A}(R)$ associated with a Noetherian ${\mathbb Z}[v,v^{-1}]$-domain ${\mathscr A}$ and a root system $R$. We show that if ${\mathscr A}$ is of quantum characteristic $0$, the model category contains all $U_{\mathscr A}$-modules that admit a Weyl filtration. If ${\mathscr A}$ is in addition local, we study torsion phenomena in the model category. This leads to a construction of torsion free objects in ${\mathcal X}$. We show that these correspond to tilting modules for the quantum group associated with ${\mathscr A}$ and $R$., Comment: 35 pages. Has overlaps with arxiv:2009.08677 and partially replaces that preprint

Published

2022

32. Non-volatile electric-field control of inversion symmetry

Author

Caretta, Lucas, Shao, Yu-Tsun, Yu, Jia, Mei, Antonio B, Grosso, Bastien F, Dai, Cheng, Behera, Piush, Lee, Daehun, McCarter, Margaret, Parsonnet, Eric, K. P, Harikrishnan, Xue, Fei, Guo, Xiangwei, Barnard, Edward S, Ganschow, Steffen, Hong, Zijian, Raja, Archana, Martin, Lane W, Chen, Long-Qing, Fiebig, Manfred, Lai, Keji, Spaldin, Nicola A, Muller, David A, Schlom, Darrell G, and Ramesh, Ramamoorthy

Subjects

Physical Sciences, Condensed Matter Physics, Nanoscience & Nanotechnology

Abstract

Competition between ground states at phase boundaries can lead to significant changes in properties under stimuli, particularly when these ground states have different crystal symmetries. A key challenge is to stabilize and control the coexistence of symmetry-distinct phases. Using BiFeO3 layers confined between layers of dielectric TbScO3 as a model system, we stabilize the mixed-phase coexistence of centrosymmetric and non-centrosymmetric BiFeO3 phases at room temperature with antipolar, insulating and polar semiconducting behaviour, respectively. Application of orthogonal in-plane electric (polar) fields results in reversible non-volatile interconversion between the two phases, hence removing and introducing centrosymmetry. Counterintuitively, we find that an electric field 'erases' polarization, resulting from the anisotropy in octahedral tilts introduced by the interweaving TbScO3 layers. Consequently, this interconversion between centrosymmetric and non-centrosymmetric phases generates changes in the non-linear optical response of over three orders of magnitude, resistivity of over five orders of magnitude and control of microscopic polar order. Our work establishes a platform for cross-functional devices that take advantage of changes in optical, electrical and ferroic responses, and demonstrates octahedral tilts as an important order parameter in materials interface design.

Published

2023

33. Proto-monsoon rainfall and greening in Central Asia due to extreme early Eocene warmth

Author

Meijer, Niels, Licht, Alexis, Woutersen, Amber, Hoorn, Carina, Robin-Champigneul, Faez, Rohrmann, Alexander, Tagliavento, Mattia, Brugger, Julia, Kelemen, Fanni D., Schauer, Andrew J., Hren, Micheal T., Sun, Aijun, Fiebig, Jens, Mulch, Andreas, and Dupont-Nivet, Guillaume

Published

2024

34. Adjusting Residual Stresses During Cold Spray Deposition of IN718

Author

Schmitt, J., Fiebig, J., Schrüfer, S., Guillon, O., and Vaßen, R.

Published

2024

35. Specialist Palliative Care and Health Care Costs at the End of Life

Author

Kenny, Patricia, Liu, Dan, Fiebig, Denzil, Hall, Jane, Millican, Jared, Aranda, Sanchia, van Gool, Kees, and Haywood, Philip

Published

2024

36. Empirical Fading Model and Bayesian Calibration for Multipath-Enhanced Device-Free Localization

Author

Schmidhammer, Martin, Gentner, Christian, Walter, Michael, Sand, Stephan, Siebler, Benjamin, and Fiebig, Uwe-Carsten

Subjects

Electrical Engineering and Systems Science - Signal Processing

Abstract

The performance of multipath-enhanced device-free localization severely depends on the information about the propagation paths within the network. While known for the line-of-sight, the propagation paths have yet to be determined for multipath components. This work provides a novel Bayesian calibration approach for determining the propagation paths by estimating reflection points. Therefore, first a statistical fading model is presented, that describes user-induced changes in the received signal of multipath components. The model is derived and validated empirically using an extensive set of wideband and ultra-wideband measurement data. Second, the Bayesian approach is presented, which, based on the derived empirical fading model, relates measured changes in the power of a multipath component to the location of the reflection point. Exploiting the geometric properties of multipath components caused by single-bounce reflections, the solution space of possible locations of reflection points is constrained to the delay ellipse. Thus, a one-dimensional elliptic estimation problem can be formulated, which is solved using a point mass filter. The applicability of the proposed approach is demonstrated and evaluated based on measurement data. Independent of the underlying measurement system, the Bayesian calibration approach is shown to robustly estimate the locations of the reflection points in different environments., Comment: 14 pages, 9 figures

Published

2022

37. Long-range order in arrays of composite and monolithic magneto-toroidal moments

Author

Lehmann, Jannis, Leo, Naëmi, Heyderman, Laura Jane, and Fiebig, Manfred

Subjects

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

Abstract

Magneto-toroidal order, also called ferrotoroidicity, is the most recently established type of ferroic state. It is based on a spontaneous and uniform alignment of unit-cell-sized magnetic whirls, called magneto-toroidal moments, associated with a macroscopic toroidization. Because of its intrinsic magnetoelectric coupling, this new ferroic state could be useful in the development of spintronic devices. We exploit two-dimensional periodic arrays of magnetostatically coupled nanomagnets as model systems for the investigation of long-range magneto-toroidal order. We present two pathways promoting this order, namely (i), structures comprising a ring of uniformly magnetized sub-micrometer-sized bar magnets and (ii), structures in which each magnetic building block itself hosts a magnetic vortex. For both cases calculations of the magnetic-dipole interaction and micromagnetic simulations reveal the conditions for the formation of spontaneous magneto-toroidal order. We confirm this order and the formation of magneto-toroidal domains in our arrays by magnetic force microscopy. We identify the presence of two types of domain-wall states emerging from the competition of two intrinsic microscopic couplings. Our work not only identifies the microscopic conditions promoting spontaneous magneto-toroidal order but also highlights the possibility tailor mesoscale magnetic arrays towards elusive types of ferroic order., Comment: 20 pages, 7 figures

Published

2022

38. Magnon transport and thermoelectric effects in ultrathin Tm3Fe5O12/Pt nonlocal devices

Author

Gao, Jialiang, Lambert, Charles-Henri, Schlitz, Richard, Fiebig, Manfred, Gambardella, Pietro, and Vélez, Saül

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The possibility of electrically exciting and detecting magnon currents in magnetic insulators has opened exciting perspectives for transporting spin information in electronic devices. However, the role of the magnetic field and the nonlocal thermal gradients on the magnon transport remain unclear. Here, by performing nonlocal harmonic voltage measurements, we investigate magnon transport in perpendicularly magnetized ultrathin Tm3Fe5O12 (TmIG) films coupled to Pt electrodes. We show that the first harmonic nonlocal voltage captures spin-driven magnon transport in TmIG, as expected, and the second harmonic is dominated by thermoelectric voltages driven by current-induced thermal gradients at the detector. The magnon diffusion length in TmIG is found to be on the order of 0.3 {\mu}m at 0.5 T and gradually decays to 0.2 {\mu}m at 0.8 T, which we attribute to the suppression of the magnon relaxation time due to the increase of the Gilbert damping with field. By performing current, magnetic field, and distance dependent nonlocal and local measurements we demonstrate that the second harmonic nonlocal voltage exhibits five thermoelectric contributions, which originate from the nonlocal spin Seebeck effect and the ordinary, planar, spin, and anomalous Nernst effects. Our work provides a guide on how to disentangle magnon signals from diverse thermoelectric voltages of spin and magnetic origin in nonlocal magnon devices, and establish the scaling laws of the thermoelectric voltages in metal/insulator bilayers., Comment: 27 pages, 11 figures

Published

2022

39. Nonvolatile Electric-Field Control of Inversion Symmetry

Author

Caretta, Lucas, Shao, Yu-Tsun, Yu, Jia, Mei, Antonio B., Grosso, Bastien F., Dai, Cheng, Behera, Piush, Lee, Daehun, McCarter, Margaret, Parsonnet, Eric, P., Harikrishnan K., Xue, Fei, Barnard, Ed, Ganschow, Steffen, Raja, Archana, Martin, Lane W., Chen, Long-Qing, Fiebig, Manfred, Lai, Keji, Spaldin, Nicola A., Muller, David A., Schlom, Darrell G., and Ramesh, Ramamoorthy

Subjects

Condensed Matter - Materials Science

Abstract

In condensed-matter systems, competition between ground states at phase boundaries can lead to significant changes in material properties under external stimuli, particularly when these ground states have different crystal symmetries. A key scientific and technological challenge is to stabilize and control coexistence of symmetry-distinct phases with external stimuli. Using BiFeO3 (BFO) layers confined between layers of the dielectric TbScO3 as a model system, we stabilize the mixed-phase coexistence of centrosymmetric and non-centrosymmetric BFO phases with antipolar, insulating and polar, semiconducting behavior, respectively at room temperature. Application of in-plane electric (polar) fields can both remove and introduce centrosymmetry from the system resulting in reversible, nonvolatile interconversion between the two phases. This interconversion between the centrosymmetric insulating and non-centrosymmetric semiconducting phases coincides with simultaneous changes in the non-linear optical response of over three orders of magnitude, a change in resistivity of over five orders of magnitude, and a change in the polar order. Our work establishes a materials platform allowing for novel cross-functional devices which take advantage of changes in optical, electrical, and ferroic responses., Comment: L Caretta and Y-T Shao contributed equally. 64 pages, 4 figures, 25 supplemental figures, 1 supplemental table

Published

2022

40. Periodicity for subquotients of the modular category $\mathcal{O}$

Author

Fiebig, Peter

Subjects

Mathematics - Representation Theory

Abstract

In this paper we study the category $\mathcal{O}$ over the hyperalgebra of a reductive algebraic group in positive characteristics. For any locally closed subset $\mathcal{K}$ of weights we define a subquotient $\mathcal{O}_{[\mathcal{K}]}$ of $\mathcal{O}$. It has the property that its simple objects are parametrized by elements in $\mathcal{K}$. We then show that $\mathcal{O}_{[\mathcal{K}]}$ is equivalent to $\mathcal{O}_{[\mathcal{K}+p^l\gamma]}$ for any dominant weight $\gamma$ if $l>0$ is an integer such that $\mathcal{K}\cap (\mathcal{K}+p^l\eta)=\emptyset$ for all dominant weights $\eta$. This allows one, for example, to restrict attention to subquotients inside the dominant (or the antidominant) chamber., Comment: 14 pages; second version without essential changes

Published

2021

41. PERIODICITY FOR SUBQUOTIENTS OF THE MODULAR CATEGORY 𝒪

Author

FIEBIG, PETER

Published

2023

42. Magnetic avalanche of non-oxide conductive domain walls

Author

Ghara, Somnath, Geirhos, Korbinian, Kuerten, Lukas, Lunkenheimer, Peter, Tsurkan, Vladimir, Fiebig, Manfred, and Kézsmárki, István

Subjects

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

Abstract

Atomically sharp domain walls (DWs) in ferroelectrics are considered as an ideal platform to realize easy-to-reconfigure nanoelectronic building blocks, created, manipulated and erased by external fields. However, conductive DWs have been exclusively observed in oxides, where DW mobility and conductivity is largely influenced by stoichiometry and defects. In contrast, we here report on conductive DWs in the non-oxide ferroelectric GaV$_4$S$_8$, where charge carriers are provided intrinsically by multivalent V$_4$ molecular clusters. We show that this new mechanism gives rise to DWs composed of nanoscale stripes with alternating electron and hole conduction, unimaginable in oxides. By exerting magnetic control on these segments we promote the mobile and effectively 2D DWs into dominating the 3D conductance, triggering abrupt conductance changes as large as eight orders of magnitude. The flexible valency, as origin of these novel hybrid DWs with giant conductivity, demonstrates that non-oxide ferroelectrics can be the source of novel phenomena beyond the realm of oxide electronics., Comment: 8 pages, 4 figures

Published

2021

43. Heads in the Clouds: Measuring the Implications of Universities Migrating to Public Clouds

Author

Fiebig, Tobias, Gürses, Seda, Gañán, Carlos H., Kotkamp, Erna, Kuipers, Fernando, Lindorfer, Martina, Prisse, Menghua, and Sari, Taritha

Subjects

Computer Science - Computers and Society, Computer Science - Networking and Internet Architecture, Computer Science - Social and Information Networks

Abstract

With the emergence of remote education and work in universities due to COVID-19, the `zoomification' of higher education, i.e., the migration of universities to the clouds, reached the public discourse. Ongoing discussions reason about how this shift will take control over students' data away from universities, and may ultimately harm the privacy of researchers and students alike. However, there has been no comprehensive measurement of universities' use of public clouds and reliance on Software-as-a-Service offerings to assess how far this migration has already progressed. We perform a longitudinal study of the migration to public clouds among universities in the U.S. and Europe, as well as institutions listed in the Times Higher Education (THE) Top100 between January 2015 and October. We find that cloud adoption differs between countries, with one cluster (Germany, France, Austria, Switzerland) showing a limited move to clouds, while the other (U.S., U.K, the Netherlands, THE Top100) frequently outsources universities' core functions and services -- starting long before the COVID-19 pandemic. We attribute this clustering to several socio-economic factors in the respective countries, including the general culture of higher education and the administrative paradigm taken towards running universities. We then analyze and interpret our results, finding that the implications reach beyond individuals' privacy towards questions of academic independence and integrity., Comment: Update 3: Final version published at PETS'23/PoPETS 2023(2). Now includes data up until October 2022 and an extended discussion, as well as a new appendix comprehensively describing how DNS works

Published

2021

44. Human Factors in Security Research: Lessons Learned from 2008-2018

Author

Kaur, Mannat, van Eeten, Michel, Janssen, Marijn, Borgolte, Kevin, and Fiebig, Tobias

Subjects

Computer Science - Computers and Society, Computer Science - Cryptography and Security, Computer Science - Human-Computer Interaction

Abstract

Instead of only considering technology, computer security research now strives to also take into account the human factor by studying regular users and, to a lesser extent, experts like operators and developers of systems. We focus our analysis on the research on the crucial population of experts, whose human errors can impact many systems at once, and compare it to research on regular users. To understand how far we advanced in the area of human factors, how the field can further mature, and to provide a point of reference for researchers new to this field, we analyzed the past decade of human factors research in security and privacy, identifying 557 relevant publications. Of these, we found 48 publications focused on expert users and analyzed all in depth. For additional insights, we compare them to a stratified sample of 48 end-user studies. In this paper we investigate: (i) The perspective on human factors, and how we can learn from safety science (ii) How and who are the participants recruited, and how this -- as we find -- creates a western-centric perspective (iii) Research objectives, and how to align these with the chosen research methods (iv) How theories can be used to increase rigor in the communities scientific work, including limitations to the use of Grounded Theory, which is often incompletely applied (v) How researchers handle ethical implications, and what we can do to account for them more consistently Although our literature review has limitations, new insights were revealed and avenues for further research identified.

Published

2021

45. Training the Polarization in Integrated La0.15 Bi0.85 FeO3 -Based Devices.

Author

Müller, Marvin, Huang, Yen-Lin, Vélez, Saül, Ramesh, Ramamoorthy, Fiebig, Manfred, and Trassin, Morgan

Subjects

BiFeO 3, magnetoelectrics, multiferroics, operando, optical second-harmonic generation

Abstract

The functionalities of BiFeO3 -based magnetoelectric multiferroic heterostructures rely on the controlled manipulation of their ferroelectric domains and of the corresponding net in-plane polarization, as this aspect guides the voltage-controlled magnetic switching. Chemical substitution has emerged as a key to push the energy dissipation of the BiFeO3 into the attojoule range but appears to result in a disordered domain configuration. Using non-invasive optical second-harmonic generation on heavily La-substituted BiFeO3 films, it is shown that a weak net in-plane polarization remains imprinted in the pristine films despite the apparent domain disorder. It is found that this ingrained net in-plane polarization can be trained with out-of-plane electric fields compatible with applications. Operando studies on capacitor heterostructures treated in this way show the full restoration of the domain configuration of pristine BiFeO3 along with a giant net in-plane polarization enhancement. Thus, the experiments reveal a surprising robustness of the net in-plane polarization of BiFeO3 against chemical modification, an important criterion in ongoing attempts to integrate magnetoelectric materials into energy-efficient devices.

Published

2021

46. Periodicity of irreducible modular and quantum characters

Author

Fiebig, Peter

Subjects

Mathematics - Representation Theory

Abstract

For a root system R, a field K and an invertible element q in K let U be the associated quantum group, defined via Lusztig's divided powers construction. We study the irreducible characters of this algebra with integral (but not necessarily dominant) highest weight. If the l-th cyclotomic polynomial vanishes when evaluated at q, then these characters exhibit a certain l-periodicity., Comment: 19 pages

Published

2021

47. Terahertz control of many-body dynamics in quantum materials

Author

Yang, Chia-Jung, Li, Jingwen, Fiebig, Manfred, and Pal, Shovon

Published

2023

48. A multi-enzyme machine polymerizes the Haemophilus influenzae type b capsule

Author

Cifuente, Javier O., Schulze, Julia, Bethe, Andrea, Di Domenico, Valerio, Litschko, Christa, Budde, Insa, Eidenberger, Lukas, Thiesler, Hauke, Ramón Roth, Isabel, Berger, Monika, Claus, Heike, D’Angelo, Cecilia, Marina, Alberto, Gerardy-Schahn, Rita, Schubert, Mario, Guerin, Marcelo E., and Fiebig, Timm

Published

2023

49. Metabolism and Disposition of the Novel Oral Factor XIa Inhibitor Asundexian in Rats and in Humans

Author

Piel, Isabel, Engelen, Anna, Lang, Dieter, Schulz, Simone I., Gerisch, Michael, Brase, Christine, Janssen, Wiebke, Fiebig, Lukas, Heitmeier, Stefan, and Kanefendt, Friederike

Published

2023

50. Posterior stabilization with polyetheretherketone (PEEK) rods and transforaminal lumbar interbody fusion (TLIF) with titanium rods for single-level lumbar spine degenerative disease in patients above 70 years of age

Author

Kamenova, M., Li, E., Soleman, J., Fiebig, O., Mehrkens, A., and Schaeren, S.

Published

2023