@article{7055, abstract = {A recent class of topological nodal-line semimetals with the general formula MSiX (M = Zr, Hf and X = S, Se, Te) has attracted much experimental and theoretical interest due to their properties, particularly their large magnetoresistances and high carrier mobilities. The plateletlike nature of the MSiX crystals and their extremely low residual resistivities make measurements of the resistivity along the [001] direction extremely challenging. To accomplish such measurements, microstructures of single crystals were prepared using focused ion beam techniques. Microstructures prepared in this manner have very well-defined geometries and maintain their high crystal quality, verified by the observations of quantum oscillations. We present magnetoresistance and quantum oscillation data for currents applied along both [001] and [100] in ZrSiS and ZrSiSe, which are consistent with the nontrivial topology of the Dirac line-node, as determined by a measured π Berry phase. Surprisingly, we find that, despite the three dimensional nature of both the Fermi surfaces of ZrSiS and ZrSiSe, both the resistivity anisotropy under applied magnetic fields and the in-plane angular dependent magnetoresistance differ considerably between the two compounds. Finally, we discuss the role microstructuring can play in the study of these materials and our ability to make these microstructures free-standing.}, author = {Shirer, Kent R. and Modic, Kimberly A and Zimmerling, Tino and Bachmann, Maja D. and König, Markus and Moll, Philip J. W. and Schoop, Leslie and Mackenzie, Andrew P.}, issn = {2166-532X}, journal = {APL Materials}, number = {10}, publisher = {AIP}, title = {{Out-of-plane transport in ZrSiS and ZrSiSe microstructures}}, doi = {10.1063/1.5124568}, volume = {7}, year = {2019}, } @article{7057, abstract = {We present a high magnetic field study of NbP—a member of the monopnictide Weyl semimetal (WSM) family. While the monoarsenides (NbAs and TaAs) have topologically distinct left and right-handed Weyl fermi surfaces, NbP is argued to be “topologically trivial” due to the fact that all pairs of Weyl nodes are encompassed by a single Fermi surface. We use torque magnetometry to measure the magnetic response of NbP up to 60 tesla and uncover a Berry paramagnetic response, characteristic of the topological Weyl nodes, across the entire field range. At the quantum limit B* (≈32 T), τ/B experiences a change in slope when the chemical potential enters the last Landau level. Our calculations confirm that this magnetic response arises from band topology of the Weyl pocket, even though the Fermi surface encompasses both Weyl nodes at zero magnetic field. We also find that the magnetic field pulls the chemical potential to the chiral n = 0 Landau level in the quantum limit, providing a disorder-free way of accessing chiral Weyl fermions in systems that are “not quite” WSMs in zero magnetic field.}, author = {Modic, Kimberly A and Meng, Tobias and Ronning, Filip and Bauer, Eric D. and Moll, Philip J. W. and Ramshaw, B. J.}, issn = {2045-2322}, journal = {Scientific Reports}, number = {1}, publisher = {Springer Nature}, title = {{Thermodynamic signatures of Weyl fermions in NbP}}, doi = {10.1038/s41598-018-38161-7}, volume = {9}, year = {2019}, } @article{7056, abstract = {In the Ca1−x La x FeAs2 (1 1 2) family of pnictide superconductors, we have investigated a highly overdoped composition (x  =  0.56), prepared by a high-pressure, high-temperature synthesis. Magnetic measurements show an antiferromagnetic transition at T N  =  120 K, well above the one at lower doping (0.15  <  x  <  0.27). Below the onset of long-range magnetic order at T N, the electrical resistivity is strongly reduced and is dominated by electron–electron interactions, as evident from its temperature dependence. The Seebeck coefficient shows a clear metallic behavior as in narrow band conductors. The temperature dependence of the Hall coefficient and the violation of Kohler's rule agree with the multiband character of the material. No superconductivity was observed down to 1.8 K. The success of the high-pressure synthesis encourages further investigations of the so far only partially explored phase diagram in this family of Iron-based high temperature superconductors. }, author = {Martino, Edoardo and Bachmann, Maja D and Rossi, Lidia and Modic, Kimberly A and Zivkovic, Ivica and Rønnow, Henrik M and Moll, Philip J W and Akrap, Ana and Forró, László and Katrych, Sergiy}, issn = {1361-648X}, journal = {Journal of Physics: Condensed Matter}, number = {48}, publisher = {IOP Publishing}, title = {{Persistent antiferromagnetic order in heavily overdoped Ca1−x La x FeAs2}}, doi = {10.1088/1361-648x/ab3b43}, volume = {31}, year = {2019}, } @article{7128, abstract = {Loss of functional cardiomyocytes is a major determinant of heart failure after myocardial infarction. Previous high throughput screening studies have identified a few microRNAs (miRNAs) that can induce cardiomyocyte proliferation and stimulate cardiac regeneration in mice. Here, we show that all of the most effective of these miRNAs activate nuclear localization of the master transcriptional cofactor Yes-associated protein (YAP) and induce expression of YAP-responsive genes. In particular, miR-199a-3p directly targets two mRNAs coding for proteins impinging on the Hippo pathway, the upstream YAP inhibitory kinase TAOK1, and the E3 ubiquitin ligase β-TrCP, which leads to YAP degradation. Several of the pro-proliferative miRNAs (including miR-199a-3p) also inhibit filamentous actin depolymerization by targeting Cofilin2, a process that by itself activates YAP nuclear translocation. Thus, activation of YAP and modulation of the actin cytoskeleton are major components of the pro-proliferative action of miR-199a-3p and other miRNAs that induce cardiomyocyte proliferation.}, author = {Torrini, Consuelo and Cubero, Ryan J and Dirkx, Ellen and Braga, Luca and Ali, Hashim and Prosdocimo, Giulia and Gutierrez, Maria Ines and Collesi, Chiara and Licastro, Danilo and Zentilin, Lorena and Mano, Miguel and Zacchigna, Serena and Vendruscolo, Michele and Marsili, Matteo and Samal, Areejit and Giacca, Mauro}, issn = {2211-1247}, journal = {Cell Reports}, keywords = {cardiomyocyte, cell cycle, Cofilin2, cytoskeleton, Hippo, microRNA, regeneration, YAP}, number = {9}, pages = {2759--2771.e5}, publisher = {Elsevier}, title = {{Common regulatory pathways mediate activity of microRNAs inducing cardiomyocyte proliferation}}, doi = {10.1016/j.celrep.2019.05.005}, volume = {27}, year = {2019}, } @article{7130, abstract = {We show that statistical criticality, i.e. the occurrence of power law frequency distributions, arises in samples that are maximally informative about the underlying generating process. In order to reach this conclusion, we first identify the frequency with which different outcomes occur in a sample, as the variable carrying useful information on the generative process. The entropy of the frequency, that we call relevance, provides an upper bound to the number of informative bits. This differs from the entropy of the data, that we take as a measure of resolution. Samples that maximise relevance at a given resolution—that we call maximally informative samples—exhibit statistical criticality. In particular, Zipf's law arises at the optimal trade-off between resolution (i.e. compression) and relevance. As a byproduct, we derive a bound of the maximal number of parameters that can be estimated from a dataset, in the absence of prior knowledge on the generative model. Furthermore, we relate criticality to the statistical properties of the representation of the data generating process. We show that, as a consequence of the concentration property of the asymptotic equipartition property, representations that are maximally informative about the data generating process are characterised by an exponential distribution of energy levels. This arises from a principle of minimal entropy, that is conjugate of the maximum entropy principle in statistical mechanics. This explains why statistical criticality requires no parameter fine tuning in maximally informative samples.}, author = {Cubero, Ryan J and Jo, Junghyo and Marsili, Matteo and Roudi, Yasser and Song, Juyong}, issn = {1742-5468}, journal = {Journal of Statistical Mechanics: Theory and Experiment}, keywords = {optimization under uncertainty, source coding, large deviation}, number = {6}, publisher = {IOP Publishing}, title = {{Statistical criticality arises in most informative representations}}, doi = {10.1088/1742-5468/ab16c8}, volume = {2019}, year = {2019}, } @article{7150, abstract = {In this work, we use algebraic methods for studying distance computation and subgraph detection tasks in the congested clique model. Specifically, we adapt parallel matrix multiplication implementations to the congested clique, obtaining an O(n1−2/ω) round matrix multiplication algorithm, where ω<2.3728639 is the exponent of matrix multiplication. In conjunction with known techniques from centralised algorithmics, this gives significant improvements over previous best upper bounds in the congested clique model. The highlight results include: 1. triangle and 4-cycle counting in O(n0.158) rounds, improving upon the O(n1/3) algorithm of Dolev et al. [DISC 2012], 2. a (1+o(1))-approximation of all-pairs shortest paths in O(n0.158) rounds, improving upon the O~(n1/2)-round (2+o(1))-approximation algorithm given by Nanongkai [STOC 2014], and 3. computing the girth in O(n0.158) rounds, which is the first non-trivial solution in this model. In addition, we present a novel constant-round combinatorial algorithm for detecting 4-cycles.}, author = {Censor-Hillel, Keren and Kaski, Petteri and Korhonen, Janne and Lenzen, Christoph and Paz, Ami and Suomela, Jukka}, issn = {0178-2770}, journal = {Distributed Computing}, number = {6}, pages = {461--478}, publisher = {Springer Nature}, title = {{Algebraic methods in the congested clique}}, doi = {10.1007/s00446-016-0270-2}, volume = {32}, year = {2019}, } @article{7275, abstract = {Aprotic alkali metal–oxygen batteries require reversible formation of metal superoxide or peroxide on cycling. Severe parasitic reactions cause poor rechargeability, efficiency, and cycle life and have been shown to be caused by singlet oxygen (1O2) that forms at all stages of cycling. However, its formation mechanism remains unclear. We show that disproportionation of superoxide, the product or intermediate on discharge and charge, to peroxide and oxygen is responsible for 1O2 formation. While the overall reaction is driven by the stability of peroxide and thus favored by stronger Lewis acidic cations such as Li+, the 1O2 fraction is enhanced by weak Lewis acids such as organic cations. Concurrently, the metal peroxide yield drops with increasing 1O2. The results explain a major parasitic pathway during cell cycling and the growing severity in K–, Na–, and Li–O2 cells based on the growing propensity for disproportionation. High capacities and rates with peroxides are now realized to require solution processes, which form peroxide or release O2via disproportionation. The results therefore establish the central dilemma that disproportionation is required for high capacity but also responsible for irreversible reactions. Highly reversible cell operation requires hence finding reaction routes that avoid disproportionation.}, author = {Mourad, Eléonore and Petit, Yann K. and Spezia, Riccardo and Samojlov, Aleksej and Summa, Francesco F. and Prehal, Christian and Leypold, Christian and Mahne, Nika and Slugovc, Christian and Fontaine, Olivier and Brutti, Sergio and Freunberger, Stefan Alexander}, issn = {1754-5692}, journal = {Energy & Environmental Science}, number = {8}, pages = {2559--2568}, publisher = {RSC}, title = {{Singlet oxygen from cation driven superoxide disproportionation and consequences for aprotic metal–O2 batteries}}, doi = {10.1039/c9ee01453e}, volume = {12}, year = {2019}, } @article{7280, abstract = {Non-aqueous lithium-oxygen batteries cycle by forming lithium peroxide during discharge and oxidizing it during recharge. The significant problem of oxidizing the solid insulating lithium peroxide can greatly be facilitated by incorporating redox mediators that shuttle electron-holes between the porous substrate and lithium peroxide. Redox mediator stability is thus key for energy efficiency, reversibility, and cycle life. However, the gradual deactivation of redox mediators during repeated cycling has not conclusively been explained. Here, we show that organic redox mediators are predominantly decomposed by singlet oxygen that forms during cycling. Their reaction with superoxide, previously assumed to mainly trigger their degradation, peroxide, and dioxygen, is orders of magnitude slower in comparison. The reduced form of the mediator is markedly more reactive towards singlet oxygen than the oxidized form, from which we derive reaction mechanisms supported by density functional theory calculations. Redox mediators must thus be designed for stability against singlet oxygen.}, author = {Kwak, Won-Jin and Kim, Hun and Petit, Yann K. and Leypold, Christian and Nguyen, Trung Thien and Mahne, Nika and Redfern, Paul and Curtiss, Larry A. and Jung, Hun-Gi and Borisov, Sergey M. and Freunberger, Stefan Alexander and Sun, Yang-Kook}, issn = {2041-1723}, journal = {Nature Communications}, publisher = {Springer Nature}, title = {{Deactivation of redox mediators in lithium-oxygen batteries by singlet oxygen}}, doi = {10.1038/s41467-019-09399-0}, volume = {10}, year = {2019}, } @article{7276, abstract = {Singlet oxygen (1O2) causes a major fraction of the parasitic chemistry during the cycling of non‐aqueous alkali metal‐O2 batteries and also contributes to interfacial reactivity of transition‐metal oxide intercalation compounds. We introduce DABCOnium, the mono alkylated form of 1,4‐diazabicyclo[2.2.2]octane (DABCO), as an efficient 1O2 quencher with an unusually high oxidative stability of ca. 4.2 V vs. Li/Li+. Previous quenchers are strongly Lewis basic amines with too low oxidative stability. DABCOnium is an ionic liquid, non‐volatile, highly soluble in the electrolyte, stable against superoxide and peroxide, and compatible with lithium metal. The electrochemical stability covers the required range for metal–O2 batteries and greatly reduces 1O2 related parasitic chemistry as demonstrated for the Li–O2 cell.}, author = {Petit, Yann K. and Leypold, Christian and Mahne, Nika and Mourad, Eléonore and Schafzahl, Lukas and Slugovc, Christian and Borisov, Sergey M. and Freunberger, Stefan Alexander}, issn = {1433-7851}, journal = {Angewandte Chemie International Edition}, number = {20}, pages = {6535--6539}, publisher = {Wiley}, title = {{DABCOnium: An efficient and high-voltage stable singlet oxygen quencher for metal-O2 cells}}, doi = {10.1002/anie.201901869}, volume = {58}, year = {2019}, } @article{7281, abstract = {Li–O2 batteries are plagued by side reactions that cause poor rechargeability and efficiency. These reactions were recently revealed to be predominantly caused by singlet oxygen, which can be neutralized by chemical traps or physical quenchers. However, traps are irreversibly consumed and thus only active for a limited time, and so far identified quenchers lack oxidative stability to be suitable for typically required recharge potentials. Thus, reducing the charge potential within the stability limit of the quencher and/or finding more stable quenchers is required. Here, we show that dimethylphenazine as a redox mediator decreases the charge potential well within the stability limit of the quencher 1,4-diazabicyclo[2.2.2]octane. The quencher can thus mitigate the parasitic reactions without being oxidatively decomposed. At the same time the quencher protects the redox mediator from singlet oxygen attack. The mutual conservation of the redox mediator and the quencher is rational for stable and effective Li–O2 batteries.}, author = {Kwak, Won-Jin and Freunberger, Stefan Alexander and Kim, Hun and Park, Jiwon and Nguyen, Trung Thien and Jung, Hun-Gi and Byon, Hye Ryung and Sun, Yang-Kook}, issn = {2155-5435}, journal = {ACS Catalysis}, number = {11}, pages = {9914--9922}, publisher = {ACS}, title = {{Mutual conservation of redox mediator and singlet oxygen quencher in Lithium–Oxygen batteries}}, doi = {10.1021/acscatal.9b01337}, volume = {9}, year = {2019}, } @article{7282, abstract = {Interphases that form on the anode surface of lithium-ion batteries are critical for performance and lifetime, but are poorly understood. Now, a decade-old misconception regarding a main component of the interphase has been revealed, which could potentially lead to improved devices.}, author = {Freunberger, Stefan Alexander}, issn = {1755-4330}, journal = {Nature Chemistry}, number = {9}, pages = {761--763}, publisher = {Springer Nature}, title = {{Interphase identity crisis}}, doi = {10.1038/s41557-019-0311-0}, volume = {11}, year = {2019}, } @article{7283, abstract = {Potassium–air batteries, which suffer from oxygen cathode and potassium metal anode degradation, can be cycled thousands of times when an organic anode replaces the metal.}, author = {Petit, Yann K. and Freunberger, Stefan Alexander}, issn = {1476-1122}, journal = {Nature Materials}, number = {4}, pages = {301--302}, publisher = {Springer Nature}, title = {{Thousands of cycles}}, doi = {10.1038/s41563-019-0313-8}, volume = {18}, year = {2019}, } @article{7284, abstract = {In this issue of Joule, Dongmin Im and coworkers from Samsung in South Korea describe a prototype lithium-O2 battery that reaches ∼700 Wh kg–1 and ∼600 Wh L–1 on the cell level. They cut all components to the minimum to reach this value. Difficulties filling the pores with discharge product and inhomogeneous cell utilization turn out to limit the achievable energy. Their work underlines the importance of reporting performance with respect to full cell weight and volume.}, author = {Prehal, Christian and Freunberger, Stefan Alexander}, issn = {2542-4351}, journal = {Joule}, number = {2}, pages = {321--323}, publisher = {Elsevier}, title = {{Li-O2 cell-scale energy densities}}, doi = {10.1016/j.joule.2019.01.020}, volume = {3}, year = {2019}, } @unpublished{7358, abstract = {Telencephalic organoids generated from human pluripotent stem cells (hPSCs) are emerging as an effective system to study the distinct features of the developing human brain and the underlying causes of many neurological disorders. While progress in organoid technology has been steadily advancing, many challenges remain including rampant batch-to-batch and cell line-to-cell line variability and irreproducibility. Here, we demonstrate that a major contributor to successful cortical organoid production is the manner in which hPSCs are maintained prior to differentiation. Optimal results were achieved using fibroblast-feeder-supported hPSCs compared to feeder-independent cells, related to differences in their transcriptomic states. Feeder-supported hPSCs display elevated activation of diverse TGFβ superfamily signaling pathways and increased expression of genes associated with naïve pluripotency. We further identify combinations of TGFβ-related growth factors that are necessary and together sufficient to impart broad telencephalic organoid competency to feeder-free hPSCs and enable reproducible formation of brain structures suitable for disease modeling.}, author = {Watanabe, Momoko and Haney, Jillian R. and Vishlaghi, Neda and Turcios, Felix and Buth, Jessie E. and Gu, Wen and Collier, Amanda J. and Miranda, Osvaldo and Chen, Di and Sabri, Shan and Clark, Amander T. and Plath, Kathrin and Christofk, Heather R. and Gandal, Michael J. and Novitch, Bennett G.}, booktitle = {bioRxiv}, pages = {75}, publisher = {Cold Spring Harbor Laboratory}, title = {{TGFβ superfamily signaling regulates the state of human stem cell pluripotency and competency to create telencephalic organoids}}, doi = {10.1101/2019.12.13.875773}, year = {2019}, } @inproceedings{7401, abstract = {The genus g(G) of a graph G is the minimum g such that G has an embedding on the orientable surface M_g of genus g. A drawing of a graph on a surface is independently even if every pair of nonadjacent edges in the drawing crosses an even number of times. The Z_2-genus of a graph G, denoted by g_0(G), is the minimum g such that G has an independently even drawing on M_g. By a result of Battle, Harary, Kodama and Youngs from 1962, the graph genus is additive over 2-connected blocks. In 2013, Schaefer and Stefankovic proved that the Z_2-genus of a graph is additive over 2-connected blocks as well, and asked whether this result can be extended to so-called 2-amalgamations, as an analogue of results by Decker, Glover, Huneke, and Stahl for the genus. We give the following partial answer. If G=G_1 cup G_2, G_1 and G_2 intersect in two vertices u and v, and G-u-v has k connected components (among which we count the edge uv if present), then |g_0(G)-(g_0(G_1)+g_0(G_2))|<=k+1. For complete bipartite graphs K_{m,n}, with n >= m >= 3, we prove that g_0(K_{m,n})/g(K_{m,n})=1-O(1/n). Similar results are proved also for the Euler Z_2-genus. We express the Z_2-genus of a graph using the minimum rank of partial symmetric matrices over Z_2; a problem that might be of independent interest. }, author = {Fulek, Radoslav and Kyncl, Jan}, booktitle = {35th International Symposium on Computational Geometry (SoCG 2019)}, isbn = {978-3-95977-104-7}, issn = {1868-8969}, location = {Portland, OR, United States}, publisher = {Schloss Dagstuhl - Leibniz-Zentrum für Informatik}, title = {{Z_2-Genus of graphs and minimum rank of partial symmetric matrices}}, doi = {10.4230/LIPICS.SOCG.2019.39}, volume = {129}, year = {2019}, } @inbook{7453, abstract = {We illustrate the ingredients of the state-of-the-art of model-based approach for the formal design and verification of cyber-physical systems. To capture the interaction between a discrete controller and its continuously evolving environment, we use the formal models of timed and hybrid automata. We explain the steps of modeling and verification in the tools Uppaal and SpaceEx using a case study based on a dual-chamber implantable pacemaker monitoring a human heart. We show how to design a model as a composition of components, how to construct models at varying levels of detail, how to establish that one model is an abstraction of another, how to specify correctness requirements using temporal logic, and how to verify that a model satisfies a logical requirement.}, author = {Alur, Rajeev and Giacobbe, Mirco and Henzinger, Thomas A and Larsen, Kim G. and Mikučionis, Marius}, booktitle = {Computing and Software Science}, editor = {Steffen, Bernhard and Woeginger, Gerhard}, isbn = {9783319919072}, issn = {0302-9743}, pages = {452--477}, publisher = {Springer Nature}, title = {{Continuous-time models for system design and analysis}}, doi = {10.1007/978-3-319-91908-9_22}, volume = {10000}, year = {2019}, } @article{7476, abstract = {The sebaceous gland (SG) is an essential component of the skin, and SG dysfunction is debilitating1,2. Yet, the cellular bases for its origin, development and subsequent maintenance remain poorly understood. Here, we apply large-scale quantitative fate mapping to define the patterns of cell fate behaviour during SG development and maintenance. We show that the SG develops from a defined number of lineage-restricted progenitors that undergo a programme of independent and stochastic cell fate decisions. Following an expansion phase, equipotent progenitors transition into a phase of homeostatic turnover, which is correlated with changes in the mechanical properties of the stroma and spatial restrictions on gland size. Expression of the oncogene KrasG12D results in a release from these constraints and unbridled gland expansion. Quantitative clonal fate analysis reveals that, during this phase, the primary effect of the Kras oncogene is to drive a constant fate bias with little effect on cell division rates. These findings provide insight into the developmental programme of the SG, as well as the mechanisms that drive tumour progression and gland dysfunction.}, author = {Andersen, Marianne Stemann and Hannezo, Edouard B and Ulyanchenko, Svetlana and Estrach, Soline and Antoku, Yasuko and Pisano, Sabrina and Boonekamp, Kim E. and Sendrup, Sarah and Maimets, Martti and Pedersen, Marianne Terndrup and Johansen, Jens V. and Clement, Ditte L. and Feral, Chloe C. and Simons, Benjamin D. and Jensen, Kim B.}, issn = {1465-7392}, journal = {Nature Cell Biology}, number = {8}, pages = {924--932}, publisher = {Springer Nature}, title = {{Tracing the cellular dynamics of sebaceous gland development in normal and perturbed states}}, doi = {10.1038/s41556-019-0362-x}, volume = {21}, year = {2019}, } @article{7550, abstract = {We consider an optimal control problem for an abstract nonlinear dissipative evolution equation. The differential constraint is penalized by augmenting the target functional by a nonnegative global-in-time functional which is null-minimized in the evolution equation is satisfied. Different variational settings are presented, leading to the convergence of the penalization method for gradient flows, noncyclic and semimonotone flows, doubly nonlinear evolutions, and GENERIC systems. }, author = {Portinale, Lorenzo and Stefanelli, Ulisse}, issn = {1343-4373}, journal = {Advances in Mathematical Sciences and Applications}, number = {2}, pages = {425--447}, publisher = {Gakko Tosho}, title = {{Penalization via global functionals of optimal-control problems for dissipative evolution}}, volume = {28}, year = {2019}, } @unpublished{7552, abstract = {There is increasing evidence that protein binding to specific sites along DNA can activate the reading out of genetic information without coming into direct physical contact with the gene. There also is evidence that these distant but interacting sites are embedded in a liquid droplet of proteins which condenses out of the surrounding solution. We argue that droplet-mediated interactions can account for crucial features of gene regulation only if the droplet is poised at a non-generic point in its phase diagram. We explore a minimal model that embodies this idea, show that this model has a natural mechanism for self-tuning, and suggest direct experimental tests. }, author = {Bialek, William and Gregor, Thomas and Tkačik, Gašper}, booktitle = {arXiv:1912.08579}, pages = {5}, publisher = {ArXiv}, title = {{Action at a distance in transcriptional regulation}}, year = {2019}, } @inproceedings{7576, abstract = {We present the results of a friendly competition for formal verification of continuous and hybrid systems with nonlinear continuous dynamics. The friendly competition took place as part of the workshop Applied Verification for Continuous and Hybrid Systems (ARCH) in 2019. In this year, 6 tools Ariadne, CORA, DynIbex, Flow*, Isabelle/HOL, and JuliaReach (in alphabetic order) participated. They are applied to solve reachability analysis problems on four benchmark problems, one of them with hybrid dynamics. We do not rank the tools based on the results, but show the current status and discover the potential advantages of different tools.}, author = {Immler, Fabian and Althoff, Matthias and Benet, Luis and Chapoutot, Alexandre and Chen, Xin and Forets, Marcelo and Geretti, Luca and Kochdumper, Niklas and Sanders, David P. and Schilling, Christian}, booktitle = {EPiC Series in Computing}, issn = {23987340}, location = {Montreal, Canada}, pages = {41--61}, publisher = {EasyChair Publications}, title = {{ARCH-COMP19 Category Report: Continuous and hybrid systems with nonlinear dynamics}}, doi = {10.29007/m75b}, volume = {61}, year = {2019}, }