Your search keyword '"Lausch A"' showing total 3,045 results

1. Machine Learning Potentials for Heterogeneous Catalysis

Author

Omranpour, Amir, Elsner, Jan, Lausch, K. Nikolas, and Behler, Jörg

Subjects

Physics - Chemical Physics, Condensed Matter - Materials Science

Abstract

The sustainable production of many bulk chemicals relies on heterogeneous catalysis. The rational design or improvement of the required catalysts critically depends on insights into the underlying mechanisms at the atomic scale. In recent years, substantial progress has been made in applying advanced experimental techniques to complex catalytic reactions in operando, but in order to achieve a comprehensive understanding, additional information from computer simulations is indispensable in many cases. In particular, ab initio molecular dynamics (AIMD) has become an important tool to explicitly address the atomistic level structure, dynamics, and reactivity of interfacial systems, but the high computational costs limit applications to systems consisting of at most a few hundred atoms for simulation times of up to tens of picoseconds. Rapid advances in the development of modern machine learning potentials (MLP) now offer a new approach to bridge this gap, enabling simulations of complex catalytic reactions with ab initio accuracy at a small fraction of the computational costs. In this perspective, we provide an overview of the current state of the art of applying MLPs to systems relevant for heterogeneous catalysis along with a discussion of the prospects for the use of MLPs in catalysis science in the years to come.

Published

2024

2. Interactions of massless fermionic fields in three dimensions

Author

Fredenhagen, Stefan, Lausch, Filipp, and Mkrtchyan, Karapet

Subjects

High Energy Physics - Theory

Abstract

All independent interaction vertices involving massless (Fang--Fronsdal) fermions in three dimensions are classified, completing the classification of interactions of massless fields of any spin. Similarly to the bosonic case, we get no independent vertices at quartic or higher order in the fields involving fields with spin $s\geq 3/2$, and cubic vertices only for spins satisfying triangle inequalities, apart from the cases involving (matter) fields with spin $s\leq 1$. Differently from the bosonic cases, we get only one vertex for each triple of spins with two Majorana fermions and one boson, which is parity even (odd) when the sum of the spins of all fields involved is odd (even). When the two Majorana fermions are identical, their coupling to an odd-spin boson is trivialized. We comment on the non-trivial holographic dictionary relating these vertices to $CFT$ correlators in two dimensions., Comment: 8 pages

Published

2024

3. Comparing strategies for the mitigation of SARS-CoV-2 airborne infection risk in tiered auditorium venues

Author

S. Mareike Geisler, Kevin H. Lausch, Felix Hehnen, Isabell Schulz, Ulrich Kertzscher, Martin Kriegel, C. Oliver Paschereit, Sebastian Schimek, Ümit Hasirci, Gerrid Brockmann, Annette Moter, Karolin Senftleben, and Stefan Moritz

Subjects

Engineering (General). Civil engineering (General), TA1-2040

Abstract

Abstract The COVID-19 pandemic demonstrated that reliable risk assessment of venues is still challenging and resulted in the indiscriminate closure of many venues worldwide. Therefore, this study used an experimental, numerical and analytical approach to investigate the airborne transmission risk potential of differently ventilated, sized and shaped venues. The data were used to assess the magnitude of effect of various mitigation measures and to develop recommendations. Here we show that, in general, positions in the near field of an emission source were at high risk, while the risk of infection from positions in the far field varied depending on the ventilation strategy. Occupancy, airflow rate, residence time, virus variants, activity level and face masks affected the individual and global infection risk in all venues. The global infection risk was lowest for the displacement ventilation case, making it the most effective ventilation strategy for keeping airborne transmission and the number of secondary cases low, compared to mixing or natural ventilation.

Published

2024

4. Measuring urban thermal environment from accessibility-based perspective: A case study in a populous city

Author

Xinyu Dong, Xiaoya Li, Yanmei Ye, Dan Su, Runjia Yang, and Angela Lausch

Subjects

Urban heat island, Urban green space, Accessibility, Remote sensing, Spatial autocorrelation analysis, Geography (General), G1-922, Environmental sciences, GE1-350

Abstract

Understanding the spatial interaction among residents, cooling service, and heat risk area in complex urban areas is conducive to developing targeted management. However, traditional urban thermal environment assessments typically relied on simple linear integration of associated indicators, often neglecting the spatial interaction effect. To explore the spatial interaction among the three elements, this study proposes an accessibility-based urban thermal environment assessment framework. Using Zhengzhou, a rapidly urbanizing city, as an example, remotely sensed images from three periods (2010, 2015 and 2020) were applied to extract urban green space (UGS) and hot island area (HIA). An improved two-step floating catchment area (2SFCA) method and bivariate local Moran’s I were employed to explore whether residents’ clustering locations are more likely to access cooling service or to be exposed to heat risk. The results demonstrate that the UGS in the city has been expanding, whereas the HIA shrank within the inner city in 2015 and then increased in 2020. Even though the urban thermal environment may have improved in the last decade, the spatial interaction among the residents, cooling service and heat risk area could be exacerbated. Spatial autocorrelation shows an increase in locations that are disadvantageous for resident congregation. Even when sufficient cooling services were provided, residents in these areas could still be exposed to high heat risk. The developed urban thermal environment framework provides a novel insight into the residents’ heat risk exposure and cooling service accessibility, and the findings could assist urban planners in targeting the improvement of extra heat exposure risk locations.

Published

2024

5. A Partnership to Support Improved Public Understandings of Science Education

Author

Julianne A. Wenner, Sarah Lausch, Megan Frary, and Paul Simmonds

Abstract

"Those who can't do, teach." This adage is common, perhaps because the general public does not fully understand what teachers do. Here, we describe our findings from a collaborative project, GIFT (Graduate Identity Formation through Teaching), in which STEM graduate students (GSs) taught science content to teacher candidates (TCs) and received a semester-long introduction to lesson planning and general instructional theories. GIFT was not originally intended to impact public perceptions of science teaching and science education nor was its purpose to cultivate future educators amongst the STEM GSs. Despite this, the data indicate that STEM GSs were impacted by this partnership and indeed thought about K-12 teaching more deeply after participating in GIFT. The results of this study indicate that purposeful interventions involving GSs (and perhaps undergraduate students) engaging in teaching may prove to be an impactful experience for those students and vital to the public support of science education.

Published

2024

6. Comparing strategies for the mitigation of SARS-CoV-2 airborne infection risk in tiered auditorium venues

Author

Geisler, S. Mareike, Lausch, Kevin H., Hehnen, Felix, Schulz, Isabell, Kertzscher, Ulrich, Kriegel, Martin, Paschereit, C. Oliver, Schimek, Sebastian, Hasirci, Ümit, Brockmann, Gerrid, Moter, Annette, Senftleben, Karolin, and Moritz, Stefan

Published

2024

7. Surface conditioning of artificial caries lesions with Er, Cr:YSGG laser before resin infiltration: an in vitro study

Author

Kalender, Bercem, Lausch, Julian, Gutknecht, Norbert, and Gorucu, Jale

Published

2024

8. Using a Smartwatch to Evaluate Subjective Ratings of Driving Functions

Author

Anna, Panzer, Hendryk, Lausch, Jannes, Iatropoulos, Roman, Henze, Chaari, Fakher, Series Editor, Gherardini, Francesco, Series Editor, Ivanov, Vitalii, Series Editor, Haddar, Mohamed, Series Editor, Cavas-Martínez, Francisco, Editorial Board Member, di Mare, Francesca, Editorial Board Member, Kwon, Young W., Editorial Board Member, Tolio, Tullio A. M., Editorial Board Member, Trojanowska, Justyna, Editorial Board Member, Schmitt, Robert, Editorial Board Member, Xu, Jinyang, Editorial Board Member, Mastinu, Giampiero, editor, Braghin, Francesco, editor, Cheli, Federico, editor, Corno, Matteo, editor, and Savaresi, Sergio M., editor

Published

2024

9. New insights into the dissolution mechanisms of iron oxides and combusted iron particles in oxalic acid.

Author

Lausch, M., Zimina, A., Bao, J., Pashminehazar, R., Etzold, B. J. M., Kramm, U. I., Grunwaldt, J.-D., and Hussong, J.

Abstract

The influence of oxidation state and crystalline structure on the dissolution mechanisms of both pure iron oxides and combusted iron particles in aqueous oxalic acid (0.5 mol/l) at 60 °C was systematically investigated. Dissolution experiments were carried out in a temperature-controlled, continuous-flow capillary reactor, allowing for the removal of reaction products and thereby suppressing the autocatalytic reaction mechanism. The non-reductive dissolution of α-Fe2O3 was observed through in situ x-ray absorption measurements. In contrast, the dissolution of spinel-type oxides such as γ-Fe2O3 and Fe3O4 proceeded reductively, indicated by gradual changes in characteristic spectral features. Given that γ-Fe2O3 and Fe3O4 share a similar crystal structure but differ in the nominal oxidation state, this implies that the phase composition is decisive for the reductive dissolution. For mixed-phase particles consisting of spinel and rhombohedral phases (maghemite and hematite), the preferential dissolution of the spinel phase was observed. Despite the similar bulk composition of spinel and rhombohedral phases in the combusted iron particles (as confirmed by Mössbauer spectroscopy and x-ray diffraction analysis), dissolution predominantly follows a non-reductive pathway, with no preferential dissolution of the γ-phase. This unique dissolution behavior of combusted iron particles arises from their layered microstructure. [ABSTRACT FROM AUTHOR]

Published

2024

10. Vosoritide Therapy in Children with Achondroplasia: Early Experience and Practical Considerations for Clinical Practice

Author

Semler, Oliver, Cormier-Daire, Valérie, Lausch, Ekkehart, Bober, Michael B., Carroll, Ricki, Sousa, Sérgio B., Deyle, David, Faden, Maha, Hartmann, Gabriele, Huser, Aaron J., Legare, Janet M., Mohnike, Klaus, Rohrer, Tilman R., Rutsch, Frank, Smith, Pamela, Travessa, Andre M., Verardo, Angela, White, Klane K., Wilcox, William R., and Hoover-Fong, Julie

Published

2024

11. Continental-scale mapping of soil pH with SAR-optical fusion based on long-term earth observation data in google earth engine

Author

Yajun Geng, Tao Zhou, Zhenhua Zhang, Buli Cui, Junna Sun, Lin Zeng, Runya Yang, Nan Wu, Tingting Liu, Jianjun Pan, Bingcheng Si, and Angela Lausch

Subjects

Google Earth Engine, Spatial prediction, Soil pH, Digital soil mapping, Earth observation, Ecology, QH540-549.5

Abstract

The advent of cloud computing platforms (e.g., Google Earth Engine (GEE)) and the massive amounts of optical and radar Earth Observation (EO) data hosted by these platforms present new opportunities for mapping soil pH at large scales. However, existing studies generally lack consensus on the effects of satellite and radar sensor parameters on GEE-based soil pH prediction models. In this study, we assessed the suitability of long-term radar (C-band Sentinel-1 and L-band PALSAR-1/2) and optical (Sentinel-2) EO data on GEE for the digital mapping of soil pH on a continental (Europe) scale and determined the most appropriate radar sensor parameters. Thirteen scenarios with different data configurations were simulated and combined with the 2018 LUCAS soil database and two machine learners (boosted regression trees and extreme gradient boosting) to develop soil prediction models. Results showed that the selection of modeling techniques, satellite sensors and radar system parameters largely affected the model output. Models involving a single polarization mode of PALSAR-1/2 data performed the worst (RPD = 1.24). Models based on Sentinel-1 data performed better than those built using PALSAR-1/2 data. The model performance was improved when a model involved more polarization bands, orbital directions, and band frequencies. The multiband model built using the two radar datasets achieved a comparable accuracy to the model based on optical data. Moreover, the model that fused radar-optical data achieved better results, with RPD values of 1.56 and 1.46 for the models with and without radar data, respectively; its performance was comparable to that of models built with commonly used variables (topography and climate). The analysis of importance indicated that long-term optical and radar EO data on GEE were important in our model. The modelling of soil pH at the continental scale largely benefits from GEE. The predicted maps exhibited strong spatial heterogeneity among different biogeographic regions, with similar spatial patterns under different modelling scenarios.

Published

2024

12. Planning for green infrastructure by integrating multi-driver: Ranking priority based on accessibility equity

Author

Dong, Xinyu, Yang, Runjia, Ye, Yanmei, Yi, Shengao, Haase, Dagmar, and Lausch, Angela

Published

2024

13. Measuring urban thermal environment from accessibility-based perspective: A case study in a populous city

Author

Dong, Xinyu, Li, Xiaoya, Ye, Yanmei, Su, Dan, Yang, Runjia, and Lausch, Angela

Published

2024

14. Mapping the soil C:N ratio at the European scale by combining multi-year Sentinel radar and optical data via cloud computing

Author

Wang, Xinyue, Geng, Yajun, Zhou, Tao, Zhao, Ying, Li, Hongchen, Liu, Yanfang, Li, Huijie, Ren, Ruiqi, Zhang, Yazhou, Xu, Xiangrui, Liu, Tingting, Si, Bingcheng, and Lausch, Angela

Published

2025

15. Teacher's Perception of ELA Accommodations in Elementary and Middle School: A New Jersey Quantitative Research Study

Author

Ryan Scott Lausch

Abstract

Accommodations are an integral part of a student's IEP or 504 plan; however, accommodation implementation differs by the various populations of teachers. This research study's purpose examined how the different populations of teachers implement students' accommodations and how the results could be used for professional development. This study consisted of 60 kindergarten through eighth-grade public school teachers who filled out a Microsoft Forms survey to report on their implementation of accommodations. Data results were analyzed using SPSS software to identify significant differences between the various populations of teachers. Data revealed there was a significant difference in the perception of general education teachers and special education teachers; teachers with less than 5 years of experience and five or more years of experience; teachers with a bachelor's degree only and teachers with a master's degree or higher. These findings indicate that professional development within these three target populations can be beneficial for accommodation implementation to occur with fidelity. [The dissertation citations contained here are published with the permission of ProQuest LLC. Further reproduction is prohibited without permission. Copies of dissertations may be obtained by Telephone (800) 1-800-521-0600. Web page: http://www.proquest.com/en-US/products/dissertations/individuals.shtml.]

Published

2023

16. Knowledge, Use, and Perceived Value of University Student Services: International and Domestic Student Perceptions

Author

Perry, Cody J., Lausch, David W., McKim, Courtney, and Weatherford, Jennifer

Abstract

Universities throughout the United States struggle with fiscal issues that can be improved by greater retention and graduation rates. One step often taken is to cut student service spending, which hurts students' ability to finish a degree. While some have advocated for greater spending in student services, we contend that current services may suffice. Since many students do not understand the services available, many do not take advantage of university offerings. This study looks at differences in perceptions between international and domestic students concerning awareness, use, and value of services available at a western U.S. land-grant university. We found many students, both international and domestic, are not aware of available programs, which correlates to less use and perceived value of these services and programs.

Published

2020

17. Continental-scale mapping of soil pH with SAR-optical fusion based on long-term earth observation data in google earth engine

Author

Geng, Yajun, Zhou, Tao, Zhang, Zhenhua, Cui, Buli, Sun, Junna, Zeng, Lin, Yang, Runya, Wu, Nan, Liu, Tingting, Pan, Jianjun, Si, Bingcheng, and Lausch, Angela

Published

2024

18. Why has farming in Europe changed? A farmers’ perspective on the development since the 1960s

Author

Mohr, Franziska, Diogo, Vasco, Helfenstein, Julian, Debonne, Niels, Dimopoulos, Thymios, Dramstad, Wenche, García-Martín, Maria, Hernik, Józef, Herzog, Felix, Kizos, Thanasis, Lausch, Angela, Lehmann, Livia, Levers, Christian, Pazur, Robert, Ruiz-Aragón, Virginia, Swart, Rebecca, Thenail, Claudine, Ulfeng, Hege, Verburg, Peter H., Williams, Tim, Zarina, Anita, and Bürgi, Matthias

Published

2023

19. In-situ iron oxide particle size and shape evolution during the dissolution in oxalic acid

Author

Lausch, M., Brockmann, P., Schmitt, F., Etzold, B.J.M., and Hussong, J.

Published

2024

20. Divergent agricultural development pathways across farm and landscape scales in Europe: Implications for sustainability and farmer satisfaction

Author

Helfenstein, Julian, Hepner, Samuel, Kreuzer, Amelie, Achermann, Gregor, Williams, Tim, Bürgi, Matthias, Debonne, Niels, Dimopoulos, Thymios, Diogo, Vasco, Fjellstad, Wendy, Garcia-Martin, Maria, Hernik, Józef, Kizos, Thanasis, Lausch, Angela, Levers, Christian, Liira, Jaan, Mohr, Franziska, Moreno, Gerardo, Pazur, Robert, Salata, Tomasz, Schüpbach, Beatrice, Swart, Rebecca, Verburg, Peter H., Zarina, Anita, and Herzog, Felix

Published

2024

21. BoneTape: A novel osteosynthetic device for the stabilization of zygomatic fractures

Author

Floros, Michael C., Bortolatto, Janaina F., Lausch, Alexander J., Valiente, Alexandra Johnson, Sone, Eli D., Santerre, J. Paul, Whyne, Cari, and Fialkov, Jeffrey A.

Published

2024

22. Monitoring Water Diversity and Water Quality with Remote Sensing and Traits

Author

Angela Lausch, Lutz Bannehr, Stella A. Berger, Erik Borg, Jan Bumberger, Jorg M. Hacker, Thomas Heege, Michael Hupfer, András Jung, Katja Kuhwald, Natascha Oppelt, Marion Pause, Franziska Schrodt, Peter Selsam, Fabian von Trentini, Michael Vohland, and Cornelia Glässer

Subjects

water diversity, water quality, traits, earth observation, remote sensing, water trait diversity, Science

Abstract

Changes and disturbances to water diversity and quality are complex and multi-scale in space and time. Although in situ methods provide detailed point information on the condition of water bodies, they are of limited use for making area-based monitoring over time, as aquatic ecosystems are extremely dynamic. Remote sensing (RS) provides methods and data for the cost-effective, comprehensive, continuous and standardised monitoring of characteristics and changes in characteristics of water diversity and water quality from local and regional scales to the scale of entire continents. In order to apply and better understand RS techniques and their derived spectral indicators in monitoring water diversity and quality, this study defines five characteristics of water diversity and quality that can be monitored using RS. These are the diversity of water traits, the diversity of water genesis, the structural diversity of water, the taxonomic diversity of water and the functional diversity of water. It is essential to record the diversity of water traits to derive the other four characteristics of water diversity from RS. Furthermore, traits are the only and most important interface between in situ and RS monitoring approaches. The monitoring of these five characteristics of water diversity and water quality using RS technologies is presented in detail and discussed using numerous examples. Finally, current and future developments are presented to advance monitoring using RS and the trait approach in modelling, prediction and assessment as a basis for successful monitoring and management strategies.

Published

2024

23. Experimental Device to Evaluate Aerosol Dispersion in Venues

Author

Isabell Schulz, Felix Hehnen, Kevin Harry Lausch, Sophia Mareike Geisler, Ümit Hasirci, Sophia Wolff, Tim Rese, Sebastian Schimek, Michael Lommel, Christian Oliver Paschereit, Stefan Moritz, Martin Kriegel, and Ulrich Kertzscher

Subjects

aerosol dispersion, experimental measurement system, indoor environment, SARS-CoV-2, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The COVID-19 pandemic has focused attention on the importance of understanding and mitigating the airborne transmission of pathogens in indoor environments. This study investigated the aerosol distribution in different indoor venues with varying ventilation concepts, including displacement, mixed, and natural ventilation. A measurement system was developed to investigate venue-specific aerosol distribution patterns using a sodium chloride solution as a tracer. To analyse the spatial dispersion of aerosols, Computational Fluid Dynamics (CFD) simulations were conducted in addition to experimental investigations. The investigations indicated the lowest aerosol load for the venue with displacement ventilation and the highest for the naturally ventilated venue. The measurement system developed in this study provides a useful tool for assessing the effectiveness of ventilation measures in reducing airborne transmission of pathogens in indoor environments. It also proved its wide range of applications, as it can be used in variously sized and shaped indoor environments, with or without an audience.

Published

2024

24. The Economic Impact of Air Pollution in Beijing

Author

Anuszkiewicz, Miranda, Tran, Truong Bao Ngoc, de Andrade Lausch, Alessandro, Jung, Michael Samet, Otto, Jonah M., Rodriguez, Natalia, Audretsch, David B., editor, Civera, Alice, editor, Lehmann, Erik E., editor, Leidinger, Konstantin P., editor, Otto, Jonah M., editor, Weiße, Laurenz, editor, and Wirsching, Katharine, editor

Published

2023

25. Reinforcing nature-based solutions through tools providing social-ecological-technological integration

Author

Wellmann, Thilo, Andersson, Erik, Knapp, Sonja, Lausch, Angela, Palliwoda, Julia, Priess, Jörg, Scheuer, Sebastian, and Haase, Dagmar

Published

2023

26. Predicting Oxidation and Spin States by High-Dimensional Neural Networks: Applications to Lithium Manganese Oxide Spinels

Author

Eckhoff, Marco, Lausch, Knut Nikolas, Blöchl, Peter E., and Behler, Jörg

Subjects

Condensed Matter - Materials Science

Abstract

Lithium ion batteries often contain transition metal oxides like Li$_{x}$Mn$_2$O$_4$ ($0\leq x\leq2$). Depending on the Li content different ratios of Mn$^\text{III}$ to Mn$^\text{IV}$ ions are present. In combination with electron hopping the Jahn-Teller distortions of the Mn$^\text{III}$O$_6$ octahedra can give rise to complex phenomena like structural transitions and conductance. While for small model systems oxidation and spin states can be determined using density functional theory (DFT), the investigation of dynamical phenomena by DFT is too demanding. Previously, we have shown that a high-dimensional neural network potential can extend molecular dynamics (MD) simulations of Li$_{x}$Mn$_2$O$_4$ to nanosecond time scales, but these simulations did not provide information about the electronic structure. Here we extend the use of neural networks to the prediction of atomic oxidation and spin states. The resulting high-dimensional neural network is able to predict the spins of the Mn ions with an error of only 0.03 $\hbar$. We find that the Mn e$_\text{g}$ electrons are correctly conserved and that the number of Jahn-Teller distorted Mn$^\text{III}$O$_6$ octahedra is predicted precisely for different Li loadings. A charge ordering transition is observed between 280 and 300 K, which matches resistivity measurements. Moreover, the activation energy of the electron hopping conduction above the phase transition is predicted to be 0.18 eV deviating only 0.02 eV from experiment. This work demonstrates that machine learning is able to provide an accurate representation of both, the geometric and the electronic structure dynamics of Li$_x$Mn$_2$O$_4$, on time and length scales that are not accessible by ab initio MD., Comment: 15 pages, 12 figures

Published

2020

27. Acid‐base imbalances and the association of blood‐gas variables, electrolytes, and biochemical analytes with outcome in hospitalized calves undergoing abdominal surgery

Author

Florian M. Trefz, Corinna K. Lausch, Anna Rieger, Stine Giertzuch, Annette Lorch, and Peter D. Constable

Subjects

acidemia, gastrointestinal ileus, peritonitis, prognosis, venous oxygen tension, Veterinary medicine, SF600-1100

Abstract

Abstract Background Surgical abdominal emergencies in calves are associated with a guarded prognosis and have the potential for complex metabolic derangements including acid‐base imbalances. Objectives To perform a comprehensive analysis of acid‐base status and to assess the prognostic relevance of preoperative clinicopathologic variables in calves undergoing abdominal surgery. Animals Hospital‐based study samples of 535 (dataset 1; DS1) and 83 calves (dataset 2; DS2). Methods Retrospective (DS1) and prospective (DS2) case series. Results In DS1, acidemia (pH 7.37) was present in 30.7% of calves. Plasma L‐lactate, chloride, and serum inorganic phosphorus concentration accounted for 51.9%, 11.6% and 9.4% of the variation of venous blood pH, respectively. Classification tree analysis indicated that a negative outcome (death or euthanasia during hospitalization) was associated with venous pO2 ≤33.6 mm Hg, anion gap >18.3 and >22.9 mEq/L, serum albumin concentration ≤36.5 and ≤29.4 g/L, serum urea concentration >4.4 mmol/L, and plasma ionized calcium concentration ≤1.26 mmol/L. The area under the receiver operating characteristic curve of this model was 0.85 (95% CI: 0.82‐0.89, P

Published

2023

28. Ecosystem Integrity Remote Sensing—Modelling and Service Tool—ESIS/Imalys

Author

Peter Selsam, Jan Bumberger, Thilo Wellmann, Marion Pause, Ronny Gey, Erik Borg, and Angela Lausch

Subjects

ecosystem integrity, traits, spectral traits, remote sensing, earth observation, tool, Science

Abstract

One of the greatest challenges of our time is monitoring the rapid environmental changes taking place worldwide at both local and global scales. This requires easy-to-use and ready-to-implement tools and services to monitor and quantify aspects of bio- and geodiversity change and the impact of land use intensification using freely available and global remotely sensed data, and to derive remotely sensed indicators. Currently, there are no services for quantifying both raster- and vector-based indicators in a “compact tool”. Therefore, the main innovation of ESIS/Imalys is having a remote sensing (RS) tool that allows for RS data processing, data management, and continuous and discrete quantification and derivation of RS indicators in one tool. With the ESIS/Imalys project (Ecosystem Integrity Remote Sensing—Modelling and Service Tool), we try to present environmental indicators on a clearly defined and reproducible basis. The Imalys software library generates the RS indicators and remote sensing products defined for ESIS. This paper provides an overview of the functionality of the Imalys software library. An overview of the technical background of the implementation of the Imalys library, data formats and the user interfaces is given. Examples of RS-based indicators derived using the Imalys tool at pixel level and at zone level (vector level) are presented. Furthermore, the advantages and disadvantages of the Imalys tool are discussed in detail in order to better assess the value of Imalys for users and developers. The applicability of the indicators will be demonstrated through three ecological applications, namely: (1) monitoring landscape diversity, (2) monitoring landscape structure and landscape fragmentation, and (3) monitoring land use intensity and its impact on ecosystem functions. Despite the integration of large amounts of data, Imalys can run on any PC, as the processing and derivation of indicators has been greatly optimised. The Imalys source code is freely available and is hosted and maintained under an open source license. Complete documentation of all methods, functions and derived indicators can be found in the freely available Imalys manual. The user-friendliness of Imalys, despite the integration of a large amount of RS data, makes it another important tool for ecological research, modelling and application for the monitoring and derivation of ecosystem indicators from local to global scale.

Published

2024

29. Single-atom quantum probes for ultracold gases using nonequilibrium spin dynamics

Author

Bouton, Quentin, Nettersheim, Jens, Adam, Daniel, Schmidt, Felix, Mayer, Daniel, Lausch, Tobias, Tiemann, Eberhard, and Widera, Artur

Subjects

Quantum Physics, Condensed Matter - Quantum Gases, Physics - Atomic Physics

Abstract

Quantum probes are atomic-sized devices mapping information of their environment to quantum mechanical states. By improving measurements and at the same time minimizing perturbation of the environment, they form a central asset for quantum technologies. We realize spin-based quantum probes by immersing individual Cs atoms into an ultracold Rb bath. Controlling inelastic spin-exchange processes between probe and bath allows mapping motional and thermal information onto quantum-spin states. We show that the steady-state spin-population is well suited for absolute thermometry, reducing temperature measurements to detection of quantum spin distributions. Moreover, we find that the information gain per inelastic collision can be maximized by accessing the nonequilibrium spin dynamic. The sensitivity of nonequilibrium quantum probing effectively beats the steady-state Cram\'er Rao limit of quantum probing by almost an order of magnitude, while reducing the perturbation of the bath to only three quanta of angular momentum. Our work paves the way for local probing of quantum systems at the Heisenberg limit, and moreover for optimizing measurement strategies via control of nonequilibrium dynamics., Comment: 12 pages, 13 figures

Published

2019

30. Effects of optical and radar satellite observations within Google Earth Engine on soil organic carbon prediction models in Spain

Author

Zhou, Tao, Geng, Yajun, Lv, Wenhao, Xiao, Shancai, Zhang, Peiyu, Xu, Xiangrui, Chen, Jie, Wu, Zhen, Pan, Jianjun, Si, Bingcheng, and Lausch, Angela

Published

2023

31. National-scale spatial prediction of soil organic carbon and total nitrogen using long-term optical and microwave satellite observations in Google Earth Engine

Author

Zhou, Tao, Lv, Wenhao, Geng, Yajun, Xiao, Shancai, Chen, Jie, Xu, Xiangrui, Pan, Jianjun, Si, Bingcheng, and Lausch, Angela

Published

2023

32. Rotational cooling of molecules in a Bose-Einstein-Condensate

Author

Will, Martin, Lausch, Tobias, and Fleischhauer, Michael

Subjects

Quantum Physics, Condensed Matter - Quantum Gases

Abstract

We discuss the rotational cooling of diatomic molecules in a Bose-Einstein condensate (BEC) of ultra-cold atoms by emission of phonons with orbital angular momentum. Despite the superfluidity of the BEC there is no frictionless rotation for typical molecules since the dominant cooling occurs via emission of particle-like phonons. Only for macro-dimers, whose size becomes comparable or larger than the condensate healing length, a Landau-like, critical angular momentum exists below which phonon emission is suppressed. We find that the rotational relaxation of typical molecules is in general faster than the cooling of the linear motion of impurities in a BEC. This also leads to a finite lifetime of angulons, quasi-particles of rotating molecules coupled to phonons with orbital angular-momentum. We analyze the dynamics of rotational cooling for homo-nuclear diatomic molecules based on a quantum Boltzmann equation including single- and two-phonon scattering and discuss the effect of thermal phonons., Comment: 9 pages, 6 figures

Published

2019

33. Nonequilibrium thermodynamics and optimal cooling of a dilute atomic gas

Author

Mayer, Daniel, Schmidt, Felix, Haupt, Steve, Bouton, Quentin, Adam, Daniel, Lausch, Tobias, Lutz, Eric, and Widera, Artur

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Statistical Mechanics, Physics - Atomic Physics

Abstract

Characterizing and optimizing thermodynamic processes far from equilibrium is a challenge. This is especially true for nanoscopic systems made of few particles. We here theoretically and experimentally investigate the nonequilibrium dynamics of a gas of few noninteracting Cesium atoms confined in a nonharmonic optical dipole trap and exposed to degenerate Raman sideband cooling pulses. We determine the axial phase-space distribution of the atoms after each Raman cooling pulse by tracing the evolution of the gas with position-resolved fluorescence imaging. We evaluate from it the entropy production and the statistical length between each cooling steps. A single Raman pulse leads to a nonequilibrium state that does not thermalize on its own, due to the absence of interparticle collisions. Thermalization may be achieved by combining free phase-space evolution and trains of cooling pulses. We minimize the entropy production to a target thermal state to specify the optimal spacing between a sequence of equally spaced pulses and achieve in this way optimal thermalization. We finally use the statistical length to verify a refined version of the second law of thermodynamics. Altogether, these findings provide a general, theoretical and experimental, framework to analyze and optimize far-from-equilibrium processes of few-particle systems.

Published

2019

34. Remote Sensing

Author

Borg, Erik, Truckenbrodt, Sina C., Lausch, Angela, Dietrich, Peter, Schmidt, Karsten, Kresse, Wolfgang, editor, and Danko, David, editor

Published

2022

35. Impact of an ice particle onto a rigid substrate: Statistical analysis of the fragment size distribution

Author

Lausch, M., Reitter, L.M., Schremb, M., and Hussong, J.

Published

2023

36. Scholastics, Pabulum, Clans, Transformation: A Journey into Otherness

Author

Lausch, David, Teman, Eric, and Perry, Cody

Abstract

International students' identities are complex and so are their needs. Semi-structured interviews with 13 of the lead researcher's former students from Dubai, United Arab Emirates, who are multi-national, multi-lingual and pursuing degrees in law, business, economics, medicine, education, art and media, in the United States, United Kingdom and Australia elucidated this reality. Their experiences demonstrated scholastic and pabulum frustrations that were offset in part by constant communication with their clans in person and through various technologies. Though the current model of higher education often seeks to identify and categorize international students as a group, this study shows that international students are unique individuals. Recognizing their individuality, higher education institutions and policymakers can more appropriately respond to international students' needs.

Published

2017

37. Multiplex Real-Time PCR for the Detection of Tetracycline, Ciprofloxacin, and Erythromycin Resistance Determinants from Human and Foodborne Campylobacter jejuni and Campylobacter coli

Author

Véronique Zeller-Péronnet, Nancy Bretschneider, Johanna Lausch, Nadera Hanifi, Melanie Pavlovic, Michael Zarske, Huong Quynh Luu, Ulrich Busch, Kerstin Stingl, and Ingrid Huber

Subjects

food safety, Campylobacter spp., food and clinical isolates, antimicrobial resistance determinants, susceptibility testing, real-time PCR assay, Biology (General), QH301-705.5

Abstract

Campylobacter jejuni and Campylobacter coli are the predominant thermophilic species responsible for foodborne gastroenteritis worldwide. Elevated resistance to certain antibiotics was observed due to antimicrobial therapy in farm animals and humans, while reduced antimicrobial usage partially reduced antibiotic resistance. Monitoring the antimicrobial resistance demonstrated a substantial fraction of multi-resistant isolates, indicating the necessity of reliable tools for their detection. In this study, resistance determinants in 129 German and 21 Vietnamese isolates were selected to establish a novel multiplex real-time PCR (qPCR), facilitating the simultaneous detection of four resistance determinants. These comprised tet(O) gene variants associated with tetracycline resistance, point mutations GyrA_T86I and GyrA_T86V associated with ciprofloxacin resistance, and the erm(B) gene together with the point mutation A2075G in the 23S rRNA gene, associated with erythromycin resistance. Moreover, the performance of the qPCR assay was evaluated by comparing the results of qPCR to phenotypic antimicrobial resistance profiles, obtained with standardized EUCAMP3 microdilution panel, which showed 100% similarity (inclusivity and exclusivity). Variation in measurement methods, including qPCR machines and master mixes showed robustness, essential for laboratories. The assay can be used for the rapid detection of resistance determinants, and is beneficial for monitoring the spread of antibiotic resistance in C. jejuni and C. coli.

Published

2023

38. Tailored single-atom collisions at ultra-low energies

Author

Schmidt, Felix, Mayer, Daniel, Bouton, Quentin, Adam, Daniel, Lausch, Tobias, Nettersheim, Jens, Tiemann, Eberhard, and Widera, Artur

Subjects

Condensed Matter - Quantum Gases, Physics - Atomic Physics, Physics - Chemical Physics, Quantum Physics

Abstract

We employ collisions of individual atomic cesium (Cs) impurities with an ultracold rubidium (Rb) gas to probe atomic interaction with hyperfine- and Zeeman-state sensitivity. Controlling the Rb bath's internal state yields access to novel phenomena observed in inter-atomic spin-exchange. These can be tailored at ultra-low energies, owing to the excellent experimental control over all relevant energy scales. First, detecting spin-exchange dynamics in the Cs hyperfine state manifold, we resolve a series of previously unreported Feshbach resonances at magnetic fields below 300 mG, separated by energies as low as $h\times 15$ kHz. The series originates from a coupling to molecular states with binding energies below $h\times 1$ kHz and wave function extensions in the micrometer range. Second, at magnetic fields below $\approx 100\,$mG, we observe the emergence of a new reaction path for alkali atoms, where in a single, direct collision between two atoms two quanta of angular momentum can be transferred. This path originates from the hyperfine-analogue of dipolar spin-spin relaxation. Our work yields control of subtle ultra-low-energy features of atomic collision dynamics, opening new routes for advanced state-to-state chemistry, for controlling spin-exchange in quantum many-body systems for solid state simulations, or for determination of high-precision molecular potentials., Comment: 5 pages, 4 figures, supplementary material

Published

2018

39. Controlled doping of a bosonic quantum gas with single neutral atoms

Author

Mayer, Daniel, Schmidt, Felix, Adam, Daniel, Haupt, Steve, Koch, Jennifer, Lausch, Tobias, Nettersheim, Jens, Bouton, Quentin, and Widera, Artur

Subjects

Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics

Abstract

We report on the experimental doping of a $^{87}$Rubidium (Rb) Bose-Einstein condensate (BEC) with individual neutral $^{133}$Cesium (Cs) atoms. We discuss the experimental tools and procedures to facilitate Cs-Rb interaction. First, we use degenerate Raman side-band cooling of the impurities to enhance the immersion efficiency for the impurity in the quantum gas. We identify the immersed fraction of Cs impurities from the thermalization of Cs atoms upon impinging on a BEC, where elastic collisions lead to a localization of Cs atoms in the Rb cloud. Second, further enhancement of the immersion probability is obtained by localizing the Cs atoms in a species-selective optical lattice and subsequent transport into the Rb cloud. Here, impurity-BEC interaction is monitored by position and time resolved three-body loss of Cs impurities immersed into the BEC. This combination of experimental methods allows for the controlled doping of a BEC with neutral impurity atoms, paving the way to impurity aided probing and coherent impurity-quantum bath interaction.

Published

2018

40. Quantum spin dynamics of individual neutral impurities coupled to a Bose-Einstein condensate

Author

Schmidt, Felix, Mayer, Daniel, Bouton, Quentin, Adam, Daniel, Lausch, Tobias, Spethmann, Nicolas, and Widera, Artur

Subjects

Condensed Matter - Quantum Gases, Physics - Atomic Physics, Quantum Physics

Abstract

We report on spin dynamics of individual, localized neutral impurities immersed in a Bose-Einstein condensate. Single Cesium atoms are transported into a cloud of Rubidium atoms, thermalize with the bath, and the ensuing spin-exchange between localized impurities with quasi-spin $F_i=3$ and bath atoms with $F_b=1$ is resolved. Comparing our data to numerical simulations of spin dynamics we find that, for gas densities in the BEC regime, the dynamics is dominated by the condensed fraction of the cloud. We spatially resolve the density overlap of impurities and gas by the spin-population of impurities. Finally we trace the coherence of impurities prepared in a coherent superposition of internal states when coupled to a gas of different densities. For our choice of states we show that, despite high bath densities and thus fast thermalization rates, the impurity coherence is not affected by the bath, realizing a regime of sympathetic cooling while maintaining internal state coherence. Our work paves the way toward non-destructive probing of quantum many-body systems via localized impurities., Comment: 4 pages with 4 figures, 5 pages of appendix

Published

2018

41. Role of thermal two-phonon scattering for impurity dynamics in a low-dimensional BEC

Author

Lausch, Tobias, Widera, Artur, and Fleischhauer, Michael

Subjects

Condensed Matter - Quantum Gases

Abstract

We numerically study the relaxation dynamics of a single, heavy impurity atom interacting with a finite one- or two-dimensional, ultracold Bose-gas. While there is a clear separation of time scales between processes resulting from single- and two-phonon scattering in three spatial dimensions, the thermalization in lower dimensions is dominated by two-phonon processes. This is due to infrared divergencies in the corresponding scattering rates in the thermodynamic limit, which are a manifestation of the Mermin-Wagner-Hohenberg theorem. It makes it necessary to include second-order phonon scattering in one-dimensional systems even at $T=0$ and above a crossover temperature $T_\textrm{2ph}$ in two spatial dimensions. $T_\textrm{2ph}$ scales inversely with the system size and is much smaller than currently experimentally accessible., Comment: 7 pages, 4 figures

Published

2017

42. Targeted next-generation sequencing of circulating free DNA enables non-invasive tumor detection in myxoid liposarcomas

Author

Eisenhardt, A. E., Schmid, A., Esser, J., Brugger, Z., Lausch, U., Kiefer, J., Braig, M., Runkel, A., Wehrle, J., Claus, R., Bronsert, P., Leithner, A., Liegl-Atzwanger, B., Zeller, J., Papini, R., von Laffert, M., Pfitzner, B. M., Koulaxouzidis, G., Giunta, R. E., Eisenhardt, S. U., and Braig, David

Published

2022

43. Insight into crush performance comparison of composite profiles and flat plates

Author

Lausch, J., Takla, M., and Schweiger, H.-G.

Published

2022

44. Prethermalization in the cooling dynamics of an impurity in a BEC

Author

Lausch, Tobias, Widera, Artur, and Fleischhauer, Michael

Subjects

Condensed Matter - Quantum Gases, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Other Condensed Matter, Quantum Physics

Abstract

We discuss the cooling dynamics of heavy impurity atoms in a Bose-Einstein condensate (BEC) by emission of Cherenkov phonons from scattering with the condensate. In a weakly interacting, low-temperature condensate the superfluidity of the condensate results in a separation of time-scales of the thermalization dynamics. Pre-thermalized states are formed with distinct regions of impurity momenta determined by the mass ratio of impurity and BEC atoms. This can be employed to detect the mass renormalization of the impurity upon the formation of a polaron and paves the way to preparing non-equilibrium impurity-momentum distributions., Comment: 7 pages, 6 figures, 3 pages appendices

Published

2017

45. Extreme Event Statistics in a Drifting Markov Chain

Author

Kindermann, Farina, Hohmann, Michael, Lausch, Tobias, Mayer, Daniel, Schmidt, Felix, and Widera, Artur

Subjects

Physics - Atomic Physics, Condensed Matter - Statistical Mechanics

Abstract

We analyse extreme event statistics of experimentally realized Markov chains with various drifts. Our Markov chains are individual trajectories of a single atom diffusing in a one dimensional periodic potential. Based on more than 500 individual atomic traces we verify the applicability of the Sparre Andersen theorem to our system despite the presence of a drift. We present detailed analysis of four different rare event statistics for our system: the distributions of extreme values, of record values, of extreme value occurrence in the chain, and of the number of records in the chain. We observe that for our data the shape of the extreme event distributions is dominated by the underlying exponential distance distribution extracted from the atomic traces. Furthermore, we find that even small drifts influence the statistics of extreme events and record values, which is supported by numerical simulations, and we identify cases in which the drift can be determined without information about the underlying random variable distributions. Our results facilitate the use of extreme event statistics as a signal for small drifts in correlated trajectories., Comment: 9 pages, 10 figures

Published

2017

46. A Partnership to Support Improved Public Understandings of Science Education.

Author

Wenner, Julianne A., Lausch, Sarah, Frary, Megan, and Simmonds, Paul

Subjects

*PHILOSOPHY of education, *PUBLIC opinion, *SCIENCE education, *PUBLIC understanding of science, *IDENTITY (Psychology)

Abstract

"Those who can't do, teach." This adage is common, perhaps because the general public does not fully understand what teachers do. Here, we describe our findings from a collaborative project, GIFT (Graduate Identity Formation through Teaching), in which STEM graduate students (GSs) taught science content to teacher candidates (TCs) and received a semester-long introduction to lesson planning and general instructional theories. GIFT was not originally intended to impact public perceptions of science teaching and science education nor was its purpose to cultivate future educators amongst the STEM GSs. Despite this, the data indicate that STEM GSs were impacted by this partnership and indeed thought about K-12 teaching more deeply after participating in GIFT. The results of this study indicate that purposeful interventions involving GSs (and perhaps undergraduate students) engaging in teaching may prove to be an impactful experience for those students and vital to the public support of science education. [ABSTRACT FROM AUTHOR]

Published

2024

47. Impact of Forest Dieback on Hydrology and Nitrogen Export Using a New Dynamic Water Quality Model.

Author

Chen, Mufeng, Jomaa, Seifeddine, Lausch, Angela, Beudert, Burkhard, Ghaffar, Salman, Jia, Wenhao, and Rode, Michael

Abstract

Forest status is crucial for catchment hydrology and water quality but is increasingly disturbed by human activities and climatic factors. Therefore, it is urgently necessary to develop water quality models that can adapt to these changes. This study used a new dynamic Hydrological Predictions for the Environment (HYPE) model to assess the effect of rapid and continuous forest changes on catchment hydrology and nitrogen export. The modified HYPE model was implemented for the 25 years period in the Große Ohe catchment in Germany, which has experienced severe forest dieback and recovery. Due to the stochastic nature of infestation events, data covering the entire process of forest change are rare. The modified HYPE model performed well at different scales for discharge and dissolved inorganic nitrogen (DIN) export. It was able to (a) capture the timing of peak flows and the seasonal DIN concentration dynamics and (b) reflect the initial increase and subsequent decrease trend in discharge and DIN export in accordance with forest dieback and regeneration. The increase in nitrogen export after forest dieback primarily resulted from reduced forest uptake and increased soil nitrogen availability from tree residues. The difference in runoff and nitrogen export increment with or without regeneration highlights the importance of forest regeneration in restoring catchment hydrology and water quality. Additionally, a decrease in DIN export after residue removal implies the impact of sound post‐disturbance management strategies. The dynamic modeling under changing catchment forests can enhance the analysis of catchment water quality and effectively support forest management. Key Points: A dynamic water quality model is proposed to reproduce forest change processes in the simulationThe modified model can capture the change of catchment runoff and nitrogen export before and after dieback and regenerationForest dieback increases runoff by reducing evapotranspiration and increases nitrogen export by reducing uptake and increasing residues [ABSTRACT FROM AUTHOR]

Published

2024

48. A laboratory scale fast feedback characterization loop for optimizing coated catalysts for emission control.

Author

Delrieux, Tim, Sharma, Shweta, Maurer, Florian, Dolcet, Paolo, Lausch, Maximilian, Zimina, Anna, Cárdenas, Camilo, Lott, Patrick, Casapu, Maria, Sheppard, Thomas Lennon, and Grunwald, Jan-Dierk

Published

2024

49. Beginning Teachers' Perceptions of the California Teaching Performance Assessment (TPA)

Author

Campbell, Conni, Ayala, Carlos Cuauhtémoc, Railsback, Gary, Freking, Frederick W., McKenna, Corey, and Lausch, David

Abstract

The teaching performance assessment (TPA) seeks to measure the knowledge, skills, and competencies of teachers during the credential phase of their training. The TPA was introduced in California in 2004 with programs piloting it and then became mandatory for candidates enrolling in preliminary programs in 2008. Although California has multiple years of implementation with three approved TPA models, and despite the recent advent of edTPA as a national-level teaching performance assessment, many question whether the TPAs have value. The purpose of the present study was to examine newly employed teachers' perceptions of the value of TPAs. This study is the first to explore the experiences of candidates who were required to pass a TPA to earn a teaching license. Both quantitative and qualitative data were collected via a 10-question survey using a Likert scale and an opportunity for open-ended comments from 1,000 participants.

Published

2016

50. Ground Truth Validation of Sentinel-2 Data Using Mobile Wireless Ad Hoc Sensor Networks (MWSN) in Vegetation Stands

Author

Hannes Mollenhauer, Erik Borg, Bringfried Pflug, Bernd Fichtelmann, Thorsten Dahms, Sebastian Lorenz, Olaf Mollenhauer, Angela Lausch, Jan Bumberger, and Peter Dietrich

Subjects

autonomous wireless ad hoc sensor network, Earth observation, Sentinel-2, ground truth data, DEMMIN, close-range measurement, Science

Abstract

Satellite-based remote sensing (RS) data are increasingly used to map and monitor local, regional, and global environmental phenomena and processes. Although the availability of RS data has improved significantly, especially in recent years, operational applications to derive value-added information products are still limited by close-range validation and verification deficits. This is mainly due to the gap between standardized and sufficiently available close-range and RS data in type, quality, and quantity. However, to ensure the best possible linkage of close-range and RS data, it makes sense to simultaneously record close-range data in addition to the availability of environmental models. This critical gap is filled by the presented mobile wireless ad hoc sensor network (MWSN) concept, which records sufficient close-range data automatically and in a standardized way, even at local and regional levels. This paper presents a field study conducted as part of the Durable Environmental Multidisciplinary Monitoring Information Network (DEMMIN), focusing on the information gained with respect to estimating the vegetation state with the help of multispectral data by simultaneous observation of an MWSN during a Sentinel-2A (S2A) overflight. Based on a cross-calibration of the two systems, a comparable spectral characteristic of the data sets could be achieved. Building upon this, an analysis of the data regarding the influence of solar altitude, test side topography and land cover, and sub-pixel heterogeneity was accomplished. In particular, variations due to spatial heterogeneity and dynamics in the diurnal cycle show to what extent such complementary measurement systems can improve the data from RS products concerning the vegetation type and atmospheric conditions.

Published

2023