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1. Theoretical Model of Structural Phase Transitions in Al-Cu Solid Solutions under Dynamic Loading Using Machine Learning

Author

Natalya Grachyova, Eugenii Fomin, and Alexander Mayer

Subjects
dynamic loading, Al-Cu solid solution, dislocation plasticity, phase transformation, molecular dynamics, plasticity model, Thermodynamics, QC310.15-319, Biochemistry, QD415-436
Abstract

The development of dynamic plasticity models with accounting of interplay between several plasticity mechanisms is an urgent problem for the theoretical description of the complex dynamic loading of materials. Here, we consider dynamic plastic relaxation by means of the combined action of dislocations and phase transitions using Al-Cu solid solutions as the model materials and uniaxial compression as the model loading. We propose a simple and robust theoretical model combining molecular dynamics (MD) data, theoretical framework and machine learning (ML) methods. MD simulations of uniaxial compression of Al, Cu and Al-Cu solid solutions reveal a relaxation of shear stresses due to a combination of dislocation plasticity and phase transformations with a complete suppression of the dislocation activity for Cu concentrations in the range of 30–80%. In particular, pure Al reveals an almost complete phase transition from the FCC (face-centered cubic) to the BCC (body-centered cubic) structure at a pressure of about 36 GPa, while pure copper does not reveal it at least till 110 GPa. A theoretical model of stress relaxation is developed, taking into account the dislocation activity and phase transformations, and is applied for the description of the MD results of an Al-Cu solid solution. Arrhenius-type equations are employed to describe the rates of phase transformation. The Bayesian method is applied to identify the model parameters with fitting to MD results as the reference data. Two forward-propagation artificial neural networks (ANNs) trained by MD data for uniaxial compression and tension are used to approximate the single-valued functions being parts of constitutive relation, such as the equation of state (EOS), elastic (shear and bulk) moduli and the nucleation strain distance function describing dislocation nucleation. The developed theoretical model with machine learning can be further used for the simulation of a shock-wave structure in metastable Al-Cu solid solutions, and the developed method can be applied to other metallic systems, including high-entropy alloys.

Published
2024
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2. Nephroptosis and ureteroinguinal incarcerated hernia mimicking acute appendicitis

Author

Michal Gergel, Ivan Brychta, Anita Lancz-Klikacova, and Alexander Mayer

Subjects
Ureteroinguinal hernia, Acute appendicitis, Ureteral incarceration, Diseases of the genitourinary system. Urology, RC870-923
Abstract

Abstract The involvement of kidney, perirenal fat, and ureter is a rare variant of inguinal hernia. We report a case of a 78-year-old man presenting with typical clinical signs of acute appendicitis. Ultrasonography and CT scan revealed ptosis of the right kidney with a major part of the perirenal capsule involved in a large right sided inguinal hernia with acute obstruction of the ureter and urostasis. Acute surgery was performed, involving resection of perirenal fat, liberation, resection, and neoimplantation of the ureter, and hernioplasty. The postoperative period was uneventful. This case illustrates diagnostic unpredictability of acute appendicitis as well as anatomic variety of inguinal hernias.

Published
2024
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3. Application of deep learning for technological parameter optimization of laser shock peening of Ti-6Al-4V alloy

Author

Mikhail Verezhak, Aleksei Vshivkov, Elena Gachegova, Maria Bartolomei, Alexander Mayer, and Sathya Swaroop

Subjects
Laser shock peening, Deep learning, Numerical simulation, Titanium alloy, Residual stress, Mechanical engineering and machinery, TJ1-1570, Structural engineering (General), TA630-695
Abstract

The paper is devoted to the development of the method of laser shock peening (LSP) of metals. To optimize the mode of LSP for Ti-6Al-4V specimens a deep learning model for predicting residual stresses by laser shock peening was developed. A numerical-experimental method was used to carry out the model training, in which an experimental study of the effect of different processing mode on the depth and distribution of residual stresses was carried out. The Johnson-Cook model was used as the governing relationship for modeling the dynamic deformation process. At the second stage, the problem of static equilibrium of a body with a plastically deformed area was numerically solved to determine residual stresses. The results of research on determination of the optimal configuration of the deep learning model showed that when using sinusoidal activation function of the neural network with 4 hidden layers and the number of neurons 10, the best level of accuracy in solving the problem is achieved. The obtained model allows us to optimally determine the LSP mode according to the given limitations of values and depth of residual stresses.

Published
2024
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4. Investigation of the Stability of the Poly(ethylene oxide)|LiNi1‐x‐y CoxMnyO2 Interface in Solid‐State Batteries

Author

Yuriy Yusim, Dirk F. Hunstock, Alexander Mayer, Dominic Bresser, Stefano Passerini, Jürgen Janek, and Anja Henss

Subjects
high‐voltage cathode active materials, interface stability, poly(ethylene oxide) (PEO), solid polymer electrolytes, solid‐state batteries, Physics, QC1-999, Technology
Abstract

Abstract While solid‐state batteries (SSBs) comprising poly(ethylene oxide) (PEO) based electrolytes are successfully commercialized already for operation at elevated temperature, the selection of the cathode active material (CAM) has so far been limited to LiFePO4. When using high‐voltage CAMs such as LiNi1‐x‐yCoxMnyO2 (NCM), the cells experience fast capacity fading – the cause of which is not consistently understood in literature. In this study, electrochemical impedance spectroscopy measurements in a three‐electrode setup are applied to confirm that the NCM|PEO interface is indeed the Achilles' heel in PEO‐based SSBs at high voltages. In this regard, the interfacial stability on the cathode side depends not only on the upper cut‐off voltage, but also on the molecular weight of PEO, strongly affecting the cell performance. Scanning electron microscopy images of the cathodes after cycling suggest that at high voltages interfacial degradation leads to fragmentation of the polymer backbone and to a decrease in viscosity of the solid polymer electrolyte. Overall, the results help to understand the detrimental processes occurring in PEO‐based SSBs in combination with high‐voltage cathodes.

Published
2024
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5. Novel sulfur-doped single-ion conducting multi-block copolymer electrolyte

Author

Alexander Mayer, Tugce Ates, Alberto Varzi, Stefano Passerini, and Dominic Bresser

Subjects
single-ion conductor, polymer electrolyte, lithium battery, hybrid electrolyte, thiophosphate, Chemistry, QD1-999
Abstract

Solid-state lithium batteries are considered one of the most promising candidates for future electrochemical energy storage. However, both inorganic solid electrolytes (such as oxide-based or sulfide-based materials) and polymer electrolytes still have to overcome several challenges to replace the currently used liquid organic electrolytes. An increasingly adopted approach to overcome these challenges relies on the combination of different electrolyte systems. Herein, we report the synthesis and characterization of a novel sulfur-doped single-ion conducting multi-block copolymer (SIC-BCE) system. This SIC-BCE may serve as interlayer between the electrodes and the sulfidic electrolyte such as Li6PS5Cl, thus benefitting of the high ionic conductivity of the latter and the favorable interfacial contact and electrochemical stability of the polymer. The polymer shows excellent ionic conductivity when swollen with ethylene carbonate and allows for stable stripping/plating of lithium, accompanied by a suitable electrochemical stability towards reduction and oxidation. First tests in symmetric Cu|SIC-BCE|Li6PS5Cl|SIC-BCE|Cu cells confirm the general suitability of the polymer to stabilize the electrode|electrolyte interface by preventing the direct contact of the sulfidic electrolyte with, e.g., metallic copper foils.

Published
2022
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6. Effect of Copper Segregation at Low-Angle Grain Boundaries on the Mechanisms of Plastic Relaxation in Nanocrystalline Aluminum: An Atomistic Study

Author

Vasiliy Krasnikov, Alexander Mayer, Polina Bezborodova, and Marat Gazizov

Subjects
symmetrical tilt low-angle grain boundary, grain boundary slip, dislocation, grain rotation, Al-Cu alloy, molecular dynamics, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

The paper studies the mechanisms of plastic relaxation and mechanical response depending on the concentration of Cu atoms at grain boundaries (GBs) in nanocrystalline aluminum with molecular dynamics simulations. A nonmonotonic dependence of the critical resolved shear stress on the Cu content at GBs is shown. This nonmonotonic dependence is related to the change in plastic relaxation mechanisms at GBs. At a low Cu content, GBs slip as dislocation walls, whereas an increase in Cu content involves a dislocation emission from GBs and grain rotation with GB sliding.

Published
2023
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7. Flame retardants, dioxins, and furans in air and on firefighters’ protective ensembles during controlled residential firefighting

Author

Kenneth W. Fent, Mark LaGuardia, Drew Luellen, Seth McCormick, Alexander Mayer, I-Chen Chen, Steve Kerber, Denise Smith, and Gavin P. Horn

Subjects
PBDE, Organophosphate flame retardants, Brominated dioxins, Chlorinated dioxins, Air sampling, Wipe sampling, Environmental sciences, GE1-350
Abstract

Introduction: Structure fires that involve modern furnishings may emit brominated flame retardants (BFRs) and organophosphate flame retardants (OPFRs), as well as brominated and chlorinated dioxins and furans, into the environment. Objectives: The goal of this study was to quantify the airborne and personal protective equipment (PPE) contamination levels of these compounds during controlled residential fires in the U.S., and to evaluate gross-decontamination measures. Methods: Bulk-sampling was done to confirm the presence of flame retardants (FRs) in the furnishings used in 12 controlled residential structure fires. Area air samples were collected during the fires and PPE wipe samples were collected from the firefighters’ turnout jackets and gloves after firefighting. For each fire, half of the jackets were decontaminated and the other half were not. Results: Of the BFRs and OPFRs measured in air during the fire period, decabromodiphenyl ether (BDE-209) and triphenyl phosphate (TPP) were the most abundant, with medians of 15.6 and 408 µg/m3, respectively, and were also detected during overhaul. These and several other BFRs and OPFRs were measured on PPE. Some gloves had contaminant levels exceeding 100 ng/cm2 and were generally more contaminated than jackets. Air and surface levels of the brominated furans appeared to be higher than the chlorinated dioxins and furans. Routine gross decontamination appeared to reduce many of the BFR contaminants, but results for the OPFRs were mixed. Conclusions: Structure fires are likely to result in a variety of FRs, dioxins, and furans into the environment, leading to PPE contamination for those working on the fireground. Firefighters should wear self-contained breathing apparatus during all phases of the response and launder or decontaminate their PPE (including gloves) after fire events.

Published
2020
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8. Worker exposure to flame retardants in manufacturing, construction and service industries

Author

Cheryl Fairfield Estill, Jonathan Slone, Alexander Mayer, I-Chen Chen, and Mark J. La Guardia

Subjects
Environmental sciences, GE1-350
Abstract

Workers in several industries are occupationally exposed to flame retardants. This study characterizes flame retardant exposure for nine industries through air and hand wipe measures for 105 workers. Specifically, we analyzed 24 analytes from three chemical classes: organophosphate flame retardants (OFRs), polybrominated diphenyl ethers (PBDEs), and non-PBDE brominated flame retardants (NPBFRs). The industries were: carpet installation, chemical manufacturing, foam manufacturing, electronic scrap, gymnastics, rigid board installation, nail salons, roofing, and spray polyurethane foam. Workers wore personal air samplers for two entire workdays and provided hand wipe samples before and after the second work day. Bulk products were also analyzed. The air, hand wipe and bulk samples were evaluated for relevant flame retardants. Spray polyurethane foam workers’ tris(1-chloro-2-propyl) phosphate air (geometric mean = 48,500 ng/m3) and hand wipe (geometric mean = 83,500 ng per sample) concentrations had the highest mean industry concentration of any flame retardant analyzed in this study, followed by triphenyl phosphate air concentration and tris(1,3-dichloro-2-propyl) phosphate hand wipe concentration from chemical manufacturers. Overall, OFR air and hand wipe concentrations were higher and more prevalent than PBDEs or non-PBDE brominated flame retardants. Some industries including spray polyurethane foam application, chemical manufacturing, foam manufacturing, nail salons, roofing, and rigid polyiso board installation had high potential for both air and hand exposure to OFRs. Carpet installers, electronic scrap workers, and gymnastic workers had exposures to all three classes of flame retardants including PBDEs, which were phased out of production in 2013. Air and dermal exposures to OFRs are prevalent in many industries and are replacing PBDEs in some industries. Keywords: Organophosphate flame retardants (OFRs), Construction workers, Roofers, Gymnasts, Electronic scrap, Nail salons

Published
2020
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9. Weighted Scoring Committees

Author

Alexander Mayer and Stefan Napel

Subjects
weighted voting, weighted committee games, scoring rules, simple voting games, collective choice, Technology, Social Sciences
Abstract

Weighted committees allow shareholders, party leaders, etc. to wield different numbers of votes or voting weights as they decide between multiple candidates by a given social choice method. We consider committees that apply scoring methods such as plurality, Borda, or antiplurality rule. Many different weights induce the same mapping from committee members’ preferences to winning candidates. The numbers of respective weight equivalence classes and hence of structurally distinct plurality committees, Borda commitees, etc. differ widely. There are 6, 51, and 5 plurality, Borda, and antiplurality committees, respectively, if three players choose between three candidates and up to 163 (229) committees for scoring rules in between plurality and Borda (Borda and antiplurality). A key implication is that plurality, Borda, and antiplurality rule are much less sensitive to weight changes than other scoring rules. We illustrate the geometry of weight equivalence classes, with a map of all Borda classes, and identify minimal integer representations.

Published
2021
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10. Experimental Technique to Study the Interaction Between a Bubble and the Particle-Laden Interface

Author

Xingshi Yang, Alexander Mayer, Ghislain Bournival, Robert Pugh, and Seher Ata

Subjects
particle monolayer, packing factor, particle tracking, surface pressure, bubble coalescence, Chemistry, QD1-999
Abstract

An experimental apparatus was developed based on the Langmuir-Blodgett trough design to investigate the compression of monolayers of micron size spherical glass particles at the air-water interface and the interaction of an air bubble with the monolayers. The setup modifies the regular Langmuir-Blodgett trough by using a deep and clear glass cell. The cell allowed both the optical observation of the particle monolayer and the insertion of a capillary to produce a bubble under the layer of particles. Surface pressure-area (Π-A) isotherms were measured while the particles rearranged at the interface during compression and expansion for different pH values and particle wettability. We also analyzed the motion of particles in the monolayer by the surface pressure and packing factor to gain further insights into the behavior of particles during the coalescence process. The results suggested that the coalescence of a bubble was dependent on the formation of a defect in the particle layer and the defect size was both strongly influenced by particle hydrophobicity and the pH of the subphase.

Published
2018
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11. Luxembourg in the Early Days of the EEC: Null Player or Not?

Author

Alexander Mayer

Subjects
weighted voting, simple games, voting power, null player, dummy player, Technology, Social Sciences
Abstract

Voters whose yes-or-no decision never makes a difference to the outcome in a simple voting game are known as “null players”. Luxembourg’s role in the Council of Ministers during the first period of the European Economic Community (EEC) is often cited as a real-world case. The paper contrasts the textbook claim that Luxembourg was a null player with a more comprehensive picture of Luxembourg’s role in EEC’s voting system. The assessment of Luxembourg’s voting power is sensitive to the role played by the European Commission in the decision-making procedure and the measurement concepts underlying power evaluations.

Published
2018
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12. Stability Outcomes following Computer-Assisted ACL Reconstruction

Author

Melissa A. Christino, Bryan G. Vopat, Alexander Mayer, Andrew P. Matson, Steven E. Reinert, and Robert M. Shalvoy

Subjects
Surgery, RD1-811
Abstract

Purpose. The purpose of this study was to determine whether intraoperative prereconstruction stability measurements and/or patient characteristics were associated with final knee stability after computer-assisted ACL reconstruction. Methods. This was a retrospective review of all patients who underwent computer-assisted single-bundle ACL reconstruction by a single surgeon. Prereconstruction intraoperative stability measurements were correlated with patient characteristics and postreconstruction stability measurements. 143 patients were included (87 male and 56 female). Average age was 29.8 years (SD ± 11.8). Results. Females were found to have significantly more pre- and postreconstruction internal rotation than males (P < 0.001 and P = 0.001, resp.). Patients with additional intra-articular injuries demonstrated more prereconstruction anterior instability than patients with isolated ACL tears (P < 0.001). After reconstruction, these patients also had higher residual anterior translation (P = 0.01). Among all patients with ACL reconstructions, the percent of correction of anterior translation was found to be significantly higher than the percent of correction for internal or external rotation (P < 0.001). Conclusion. Anterior translation was corrected the most using a single-bundle ACL reconstruction. Females had higher pre- and postoperative internal rotation. Patients with additional injuries had greater original anterior translation and less operative correction of anterior translation compared to patients with isolated ACL tears.

Published
2015
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13. Adolescent differences in knee stability following computer-assisted anterior cruciate ligament reconstruction

Author

Melissa A. Christino, Bryan G. Vopat, Gregory R. Waryasz, Alexander Mayer, Steven E. Reinert, and Robert M. Shalvoy

Subjects
computer navigation, pediatric, anterior cruciate ligament, knee stability, Orthopedic surgery, RD701-811
Abstract

Anterior cruciate ligament (ACL) surgery is being increasingly performed in the adolescent population. Computer navigation offers a reliable way to quantitatively measure knee stability during ACL reconstruction. A retrospective review of all adolescent patients (vs 21.7°, P=0.026) and post-reconstruction (20.1° vs 15.1°, P=0.005). Compared to adults, adolescents demonstrated significantly higher internal rotation both pre- (23.3° vs 21.5°, P=0.047) and post-reconstruction (17.1° vs 14.4°, P=0.003). They also had higher total rotation both pre- (40.9° vs 38.4°, P=0.02) and post-reconstruction when compared to adults (31.56° vs 28.67°, P=0.005). In adolescent patients, anterior translation was corrected more than rotation. Females had higher pre- and residual post-reconstruction internal rotation compared to males. When compared to adults, adolescents had increased internal rotation and total rotation both pre- and post-reconstruction.

Published
2014
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14. Non-ischemic Cardiomyopathy Patients Derive Superior Mortality Benefit from Cardiac Resynchronization Therapy

Author

Jonathan Rosman, Sandeep Dhillon, Alexander Mayer, Sam Hanon, and Paul Schweitzer

Subjects
Cardiac Resynchronization Therapy, Bi-ventricular pacemaker, Cardiomyopathy, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Background: Cardiac Resynchronization Therapy (CRT) is indicated for the treatment of advanced heart failure with severe systolic dysfunction and intraventricular conduction delay. Patient selection for this technology is vital, though it remains unclear which patients benefit most from CRT. We tested the hypothesis that patients with non-ischemic cardiomyopathy have a superior mortality benefit from CRT than ischemic cardiomyopathy patients. Methods: We evaluated 95 CRT patients to determine which factors predict mortality.Results: Patients with non-ischemic cardiomyopathy had a significantly better prognosis than patients with ischemic cardiomyopathy.Conclusion: Larger prospective studies can substantiate this finding and better delineate which patients benefit most from CRT.

Published
2007

20. Direct Monitoring of the Potassium Charge Carrier in Prussian Blue Cathodes using Potassium K-edge X-ray Absorption Spectroscopy

Author

Alexander Mayer, Owain Beynon, Andrew Logsdail, Upul Wijayantha, Sandra Dann, José Marco, Joshua Elliot, Matteo Aramini, Giannantonio Cibin, and SIMON KONDRAT

Abstract

Prussian Blue is widely utilized as a cathode material in batteries, due to its ability to intercalate alkaline metal ions, including potassium. However, the exact location of potassium or other cations within the complex structure, and how it changes as a function of cycling, is unclear. Herein, we report direct insight into the nature of potassium speciation within Prussian Blue during cyclic voltammetry, via oper-ando potassium K-edge X-ray Absorption Near Edge Structure (XANES) analysis. Clear and identifiable spectra are experimentally differen-tiated for the fully intercalated (fully reduced Fe2+FeII Prussian White), partially intercalated (Prussian Blue; Fe3+FeII), and free KNO3(aq) elec-trolyte. Comparison of the experiment with simulated XANES of theoretical structures indicates that potassium lies within the channels of the Prussian blue structure, but is displaced towards the periphery of the channels by occluded water and/or structural water present resulting from [Fe(CN)6]4- vacancies. The structural composition from the charge carrier perspective was monitored for two samples of differing crystallinity and electrochemical stability. Reproducible potassium XANES spectral sequences were observed for crystalline Prus-sian blue, in agreement with retention of capacity; in contrast, the capacity of the poorly crystalline sample declined as the potassium became trapped within the partially intercalated poorly-crystalline Prussian blue. The cause of degradation could be attributed to a signif-icant loss of [Fe(CN)6]-[Fe(NC)6] ordering and the formation of a potassium-free non-conducting ferrihydrite phase. These findings demonstrate the potential of XANES to directly study the nature and evolution of potassium species during an electrochemical process.

Published
2023

21. MULTIFUNCTIONAL IRRIGATION SYSTEM FOR CONTROL OF PHYSIOLOGICAL PROCESSES AND REGULATION OF HYDROTHERMAL REGIME OF AGROPHYTENOSIS

Author

Alexander Mayer

Subjects
General Earth and Planetary Sciences, General Environmental Science
Abstract

Based on the analysis of long-term research carried out in the Volgograd region and the Re-public of Kalmykia, where hot and dry climate prevails, it is necessary to create a universal multifunctional irrigation irrigation system, based on the principle of combining irrigation methods and techniques, both among themselves and in combination with small -dispersed sprinkling. The introduction of additional irrigation functions into the irrigation system with the activation of irrigation water with carbon dioxide, oxygen and the supply of warm air to the irrigation system, to prevent early and late frosts in the spring - autumn period, will un-doubtedly preserve and even increase the yields of agricultural crops

Published
2022

28. Initiation and Mechanisms of Plasticity in Bimetallic Al-Cu Composite

Author

Alexander Mayer and Vasiliy Krasnikov

Subjects
Metals and Alloys, General Materials Science, Al-Cu composite, bimetallic systems, plasticity incipience, shear strength, strain rate dependence, pressure-induced strengthening and softening, molecular dynamics, artificial neural network, Bayesian approach
Abstract

We studied the shear deformation of a laminar Al-Cu composite with (100) and (110) interfaces with a shear perpendicular to the lamellae in comparison with pure single crystal Al and Cu at strain rates of 109 s−1 and 108 s−1 and different initial pressures in the range from −3 GPa to +50 GPa. The results of molecular dynamics (MD) for the plasticity initiation are generalized by means of an artificial neural network (ANN) trained by MD data for the (100) interface, and a rate sensitivity parameter identified using MD data for different strain rates. The ANN-based approach allows us to extrapolate MD data to much lower strain rates, which are more relevant for typical dynamic loadings. The considered problem is of interest as an example of the application of the developed ANN-based approach to bimetallic systems, whereas previously it was tested only for pure metals; in addition, Al-Cu composites are of practical interest for technology. The interface between metals reduces the shear strength of the composite in comparison with both pure metals. At an initial pressure below 10 GPa, the plasticity begins in the aluminum part of the composite, while at higher pressures, the plasticity of the copper part starts first. At a pressure above 40 GPa, a phase transition in the aluminum part governs the plasticity development. All this leads to a nonmonotonic pressure dependence of the critical shear stress of the Al-Cu composite in the case of (100) and (110) interfaces without misorientation. Misorientation decreases the critical stress of the nucleation of lattice dislocation and makes the pressure dependence of this stress monotonic. Deformation modes, with a defect-free copper part and a strain-accommodating aluminum part are observed in the MD and can be useful for technological applications related to deformable conducting materials.

Published
2023
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29. Introduction

Author

Sascha Kurz, Nicola Maaser, and Alexander Mayer

Published
2023

30. RIAM 2.0 - Reed Instrument Artificial Mouth

Author

Alexander, Mayer and Pàmies-Vilà, Montserrat

Subjects
FOS: Physical sciences
Abstract

This technical report provides the construction details and solutions of the further development of a reed-instrument artificial mouth (RIAM), which is an artificial blowing device used to analyse single-reed musical instruments. Among other aspects, the extension by a special seal, which flexibly encloses the mouthpiece, and the introduction of a controlled artificial tongue are discussed. Software developed in LabVIEW is explained for a better understanding of the features provided. Technical drawings presented should facilitate reproducing the design of RIAM 2.0.

Published
2023
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33. BNI1 Phase Separation in Ashbya gossipii: smFISH Data

Author

Alexander Mayer

Abstract

Post-processed data of the 94 smFISH images comprising different strains of the filamentous fungi Ashbya gossypii. 3D masks of the hyphae in each image are contained in files ending in mask.mat. Spot intensities and locations of RNA in each image are contained in files ending in RNA.mat, while corresponding nuclei masks are stored in files ending in nucl.mat. Processing techniques detailed in the results section of the paper.

Published
2022
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34. Laborkuriositäten: Zeichen und Wunder

Author

Haldor Zaake‐Hertling, Alexander Mayer, Vincent Weigelt, Katrin Hoffman, and Marie Weingarten

Subjects
General Chemical Engineering, General Chemistry
Published
2023

35. 'Freie Bahn dem Tüchtigen' und 'Aufstieg durch Bildung' Soziale Mobilität als politisches Problem vom Vormärz bis zur Weimarer Republik

Author

Alexander Mayer

Subjects
History
Abstract

Zusammenfassung Die Idee eines staatlich geförderten sozialen Aufstiegs durch Bildung ist kein Produkt des 20. Jahrhunderts, sondern lässt sich bis zur Pauperismusdebatte der 1830er und 1840er Jahre zurückverfolgen. Dieser Beitrag zeichnet den Wandel meritokratischer Gesellschaftsmodelle in Deutschland nach und zeigt, wie die Vorstellung des Bildungssystems als Motor sozialer Mobilität entstand. Mangelnde Aufstiegschancen für Personen aus den unteren Schichten wurden erstmals im Kontext der Pauperismusdebatte von Liberalen als politisches Problem wahrgenommen. Arbeitern, die sich den Normen bürgerlicher Respektabilität anpassten, sollte der Weg aus Besitzlosigkeit und Lohnabhängigkeit zu bürgerlicher Selbständigkeit auf Basis eines kleinen Gewerbes oder eines Bildungsberufs eröffnet werden. Ausgehend von einem bildungsbürgerlichen Erfahrungshorizont und anknüpfend an beschränkte, aber reale Aufstiegsmöglichkeiten entstand die Vorstellung des Bildungssystems als Aufstiegskanal. Mit der Einheitsschulbewegung konzentrierte sich die Debatte um Aufstiegschancen gegen Ende des 19. Jahrhunderts zunehmend auf die soziale Öffnung des höheren Schulwesens. Seit dem Ersten Weltkrieg wurde die Ausschöpfung der nationalen Begabungsreserven als Notwenigkeit im wirtschaftlichen und machtpolitischen Konkurrenzkampf der Nationen begriffen. Sobald allerdings erste Schritte zur sozialen Öffnung des Bildungssystems unternommen wurden, trat das Problem der „Auslese“ in den Fokus.

Published
2021

37. Influence of Polymer Backbone Fluorination on the Electrochemical Behavior of Single-Ion Conducting Multiblock Copolymer Electrolytes

Author

Alexander Mayer, Huu-Dat Nguyen, Alessandro Mariani, Thomas Diemant, Sandrine Lyonnard, Cristina Iojoiu, Stefano Passerini, and Dominic Bresser

Subjects
Inorganic Chemistry, Electrolytes, Fluorides, Polymers and Plastics, Halogenation, Polymers, Organic Chemistry, Materials Chemistry, Fluorine, Lithium
Abstract

The presence of fluorine, especially in the electrolyte, frequently has a beneficial effect on the performance of lithium batteries owing to, for instance, the stabilization of the interfaces and interphases with the positive and negative electrodes. However, the presence of fluorine is also associated with reduced recyclability and low biodegradability. Herein, we present a single-ion conducting multiblock copolymer electrolyte comprising a fluorine-free backbone and compare it with the fluorinated analogue reported earlier. Following a comprehensive physicochemical and electrochemical characterization of the copolymer with the fluorine-free backbone, the focus of the comparison with the fluorinated analogue was particularly on the electrochemical stability toward oxidation and reduction as well as the reactions occurring at the interface with the lithium-metal electrode. To deconvolute the impact of the fluorine in the ionic side chain and the copolymer backbone, suitable model compounds were identified and studied experimentally and theoretically. The results show that the absence of fluorine in the backbone has little impact on the basic electrochemical properties, such as the ionic conductivity, but severely affects the electrochemical stability and interfacial stability. The results highlight the need for a very careful design of the whole polymer for each desired application, essentially, just like for liquid electrolytes.

Published
2022

38. Examination of the static and dynamic forces at the termination of a bowed string

Author

Alessio Lampis, Alexander Mayer, Montserrat Pàmies-Vilà, and Vasileios Chatziioannou

Subjects
Acoustics and Ultrasonics, Arts and Humanities (miscellaneous)
Abstract

In bowed-string instruments, the force exerted by the string on the bridge may be used for analyzing the excitation process. This force is caused by the vibration of the string due to the musician's bowing action. The dynamic component of this force has been investigated in the relevant literature. In this study, focusing on a monochord, an approach is proposed to simultaneously measure both the static and the dynamic components of the force exerted by the string on a rigid support. The use of a robotic arm to excite the string via a linear bowing action permits to measure this force under controlled excitation conditions. The static and dynamic components of the force are analyzed in the transverse plane to the string at several moments of the bow stroke, as well as for selected bowing positions and bow velocities.

Published
2023

39. Weighted voting on the IMF Managing Director

Author

Stefan Napel and Alexander Mayer

Subjects
media_common.quotation_subject, Voting procedures, Weighted voting, Distribution (economics), Accounting, Preference satisfaction, Voting, 0502 economics and business, 050602 political science & public administration, 050207 economics, Business and International Management, media_common, IMF executive board, business.industry, 05 social sciences, Preference, 0506 political science, Non-binary voting, International political economy, IMF quota reform, Pairwise comparison, Business, General Economics, Econometrics and Finance, Public finance
Abstract

Executive Directors of the International Monetary Fund elect the Fund’s Managing Director from a shortlist of three candidates; financial quotas of IMF members define the respective numbers of votes. The implied a priori distribution of success (preference satisfaction) is compared across different electoral procedures. The USA’s Executive Director can expect to come closer to its top preference under plurality rule than for pairwise majority comparisons or plurality with a runoff; opposite applies to everybody else. Differences of US success between voting rules dominate the within-rule differences between most other Directors, and much of the latest reform of quotas.

Published
2020

41. On the local power of some tests of strict exogeneity in linear fixed effects models

Author

Alexander Mayer

Subjects
Statistics and Probability, Economics and Econometrics, Local asymptotic power, 05 social sciences, Near-epoch dependence, Settore SECS-P/05 - Econometria, Fixed effects model, Fixed effects estimation, Strict exogeneity, Hausman test, 01 natural sciences, Power (physics), 010104 statistics & probability, Variable (computer science), Asymptotic power, 0502 economics and business, Econometrics, Endogeneity, 0101 mathematics, Statistics, Probability and Uncertainty, 050205 econometrics, Mathematics
Abstract

The local asymptotic power of a variable addition test for strict exogeneity in a linear panel model is derived under near-epoch dependence and a maintained assumption of contemporaneously exogenous regressors. Local power is found to depend nontrivially on the relative panel size, on the width of the local neighborhood, and on the maintained notion of exogeneity under the alternative. Some (dis)similarities between this test and already existing test principles are explored.

Published
2022

42. Adressen

Author

Silvia Albrecht, RAin Andrea Amerschläger, Jürgen Barthofer, Martin J.M. Bauer, Artur Bergmann, Gregor Berrsché, Roland Biedert, Michael Bohnsack, Hans-Peter Boschert, Angelika Braun, Peter Braun, Paul Brinkmeier, Volker M.H. Broy, Peter U. Brucker, Gerd-Peter Brüggemann, Lars Brunnader, Michael P. Conze, Klaus Dann, Jens Dargel, Moritz Dau, Gregor Deitmer, Michael Dienst, Alexander C. Disch, Dominik Doerr, Roland Eisele, Hans-Georg Eisenlauer, Martin Engelhardt, Andreas Englert, Jens Enneper, Frank Fleischmann, Lukas Förster, Jürgen Freiwald, Anna-Maria Fritzsche, Wilfried Gfrörer, Ottmar Gorschewsky, Andreas Gösele-Koppenburg, Karlheinz Graff, Bernhard Greitemann, Casper Grim, Rolf Haaker, Georg Hackl, Berthold Hallmaier, Dietolf Hämel, Lutz Hänsel, Kornelius Heck, Bernd Hiller, Beat Hintermann, Anja Hirschmüller, Lena Hirtler, Hubert Hörterer, Jan Holger Holtschmit, Thilo Hotfiel, Michael Humenberger, Volker Jägemann, Axel Jäger, Jörg Jerosch, Thomas Jöllenbeck, Franz Kainberger, Antonius Kass, Max Daniel Kauther, Gino M.M.J. Kerkhoffs, Marlene Klein, Markus Knupp, Dieter Kohn, Winfried Koller, Rolf Michael Krifter, Karl-Heinz Kristen, Sabine Krüger, Michael Krüger-Franke, Andreas Kugler, PD Dr. med. Tim Leschinger, André Leumann, Ludwig Löffler, Bernhard Lukas, Christoph Lutter, Martin Majewski, Boris Mandryka, Marlene Mauch, Georg Mavridis, Alexander Mayer, Oliver Miltner, Norbert Möllers, Hans-Wilhelm Müller-Wohlfahrt, Stefan Nehrer, Georg Neumann, Elena Neunteufel, Stefan Nolte, Christian Nührenbörger, Gerhard Oberthaler, Patrick Orth, Geert Pagenstert, Markus Parzeller, Hans-Gerd Pieper, Christoph Raschka, Iris Reuter, Kirstin Richter, Dr. Mathias Ritsch, Lisette Rodt, Thomas Rodt, Bernd Rosemeyer†, Roxa Ruiz, Ralf Schauer, Anja Scheiff, Maximilian Schindler, Christoph Schlegel-Wagner, Peter Schmidt, Rüdiger Schmidt-Wiethoff, Holger Schmitt, Christian Schneider, Michaela M. Schneiderbauer, Dieter Schnell, Volker Schöffl, Benedikt Schöllkopf, Eckhart Schröter, Dr. Sarah Schröter, Claudia Schueller-Weidekamm, Philipp Schultes, René Schwall, Thomas Schwamborn, Prof. Dr. Romain, Christian H. Siebert, Stefanie Siebert, Volker Smasal, Robert Śmigielski, Gernot Sperner, Simon D. Steppacher, Gerhard W. Sybrecht, Stefanie Syré, Gabor Szalay, Carsten Temme, Sebastian Thormann, Thomas Tischer, Philippe M. Tscholl, Peter Ueblacker, Axel Urhausen, Victor Valderrabano, Niek van Dijk, Lisa Veith-Gruber, Kerstin Warnke, Luise Weinrich, Lukas Weisskopf, Meike Welz, Gernot Willscheid, Bernd Wolfarth, and Markus Zimmer

Published
2022

43. Two-step estimation in linear regressions with adaptive learning

Author

Alexander Mayer

Subjects
Statistics and Probability, FOS: Economics and business, FOS: Computer and information sciences, Econometrics (econ.EM), Settore SECS-P/05 - Econometria, Applications (stat.AP), Statistics, Probability and Uncertainty, Statistics - Applications, 62J02, 62L20, Economics - Econometrics
Abstract

Weak consistency and asymptotic normality of the ordinary least-squares estimator in a linear regression with adaptive learning is derived when the crucial, so-called, `gain' parameter is estimated in a first step by nonlinear least squares from an auxiliary model. The singular limiting distribution of the two-step estimator is normal and in general affected by the sampling uncertainty from the first step. However, this `generated-regressor' issue disappears for certain parameter combinations.

Published
2022
Full Text
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44. Schwimmen

Author

Alexander Mayer

Published
2022

47. Integrating Technology and Advising: Studying Enhancements to Colleges’ iPASS Practices

Author

Alexander Mayer, Alexander Mayer, Benjamin Cohen, Edith Yang, Hoori Santikian Kalamkarian, Lauren Pellegrino, Melissa Boynton, Alexander Mayer, Alexander Mayer, Benjamin Cohen, Edith Yang, Hoori Santikian Kalamkarian, Lauren Pellegrino, and Melissa Boynton

Abstract

Integrated Planning and Advising for Student Success (iPASS) is an initiative funded by the Bill & Melinda Gates Foundation to support colleges that seek to incorporate technology into their advising and student services. In iPASS, such technology is intended to increase advising's emphasis on a student's entire college experience, enabling advisers to more easily (1) intervene when students show early warning signs of academic and nonacademic challenges, (2) regularly follow up as students progress through college, (3) refer students to tutoring and other support services when needed, and (4) provide personalized guidance that reflects students' unique needs.To study how technology can support advising redesign, MDRC and the Community College Research Center partnered with three institutions already implementing iPASS: California State University, Fresno; Montgomery County Community College; and the University of North Carolina at Charlotte. The three institutions increased the emphasis on providing timely support, boosted their use of advising technologies, and used administrative and communication strategies to increase student contact with advisers. The enhancements at all three institutions are being evaluated using a randomized controlled trial research design.This report shows that the enhancements generally produced only a modestly different experience for students in the program group compared with students in the control group, although at one college, the enhancements did substantially increase the number of students who had contact with an adviser. Consequently, it is not surprising that the enhancements have so far had no discernible positive effects on students' academic performance. The findings also highlight the potential for unintended consequences. Before the study, each of the institutions had required that certain groups of students see an adviser before registering for classes in the next semester. Each institution expanded this preregistration

Published
2019

48. Sex and Age Differences in Default Mode Network Functional Correlation After Traumatic Brain Injury

Author

Anar Amgalan, Alexander Mayer, Michelle Ha, and Andrei Irimia

Subjects
Abstracts, Health (social science), Session 9305 (Poster), Life-span and Life-course Studies, Geroscience, AcademicSubjects/SOC02600, Health Professions (miscellaneous)
Abstract

The extent to which brain functional correlations (FCs) are modulated by age and sex is unknown. We studied default mode network (DMN) FC changes in 136 participants with mild traumatic brain injury (mTBI; 52 females, age range: 19 – 79 years, age μ = 42, age σ = 17; 72 participants younger than 40). Structural and functional magnetic resonance images (MRIs) were acquired ~1 week and ~6 months post-injury; the FreeSurfer Functional Analysis STream (FS-FAST) was used for group-level FC comparisons across sexes and age groups (younger vs. older than 40). FC seeds were two sub-networks of the DMN, M1 and M2, defined by the standard Yeo parcellation scheme. For M1, clusters with significant FC differences across sexes were in the right paracentral lobule, central sulcus, postcentral gyrus, superior frontal gyrus, and precentral sulcus (p = 0.0001), and in the left paracentral lobule and central sulcus (p = 0.022). For M2, clusters spanned the right postcentral gyrus, middle occipital gyrus, transverse occipital sulcus, and central sulcus (p = 0.0001), the left precuneus and inferior parietal lobe (p = 0.0096). Females either exhibited no significant FC change or underwent FC increases. Males underwent significant FC decreases within all clusters, suggesting their increased vulnerability to mTBI-related effects. Clusters whose FCs differed significantly across age groups were localized to the left superior temporal gyrus (p = 0.0078), highlighting the vulnerability of temporal regions to age effects. Future studies should explore the age × sex interaction and uncover the mechanisms for these observed findings.

Published
2021

49. Motion of Particles in a Monolayer Induced by Coalescing of a Bubble with a Planar Air-Water Interface

Author

Alexander Mayer, Ghislain Bournival, Xiangyang Ling, Xingshi Yang, and Seher Ata

Subjects
Materials science, Interface (Java), Air water interface, Bubble, Motion (geometry), 02 engineering and technology, Surfaces and Interfaces, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Molecular physics, 0104 chemical sciences, Planar, Langmuir trough, Monolayer, Electrochemistry, General Materials Science, 0210 nano-technology, Physics::Atmospheric and Oceanic Physics, Spectroscopy
Abstract

The motion of particles in a monolayer induced by the coalescing of a bare bubble with a planar air-water interface was investigated in a modified Langmuir trough. Experiments were performed to understand the effect of particle hydrophobicity, subphase pH, packing density, the presence of a weak surfactant, and particle size distribution on the behavior of particle movement in the monolayer during the coalescence process. Video tracking software was used to track the particles and extract data based on the video footage. Visual inspection indicated that the coalescence of the bubble with the monolayer was a chaotic process which led the interface to oscillate to an extent that the particles underwent complete rearrangement. A simple analysis was carried out on the main forces involved in particle motion and rearrangement at the oscillating air-water interface. The motion characteristic of particles was evaluated by speed and mean-square displacement (MSD). The results showed that the butanol-treated particles had higher speed and MSD than the particles with a stronger affinity to the air-water interface. Similar results were also found at high subphase pH and low packing factor.

Published
2021

50. Brass instruments as a cascade of two-port networks : Transfer functions, chain parameters, and power efficiency in theory and practice

Author

Wilfried Kausel, James W. Beauchamp, and Alexander Mayer

Subjects
Q39782 brass, Acoustics and Ultrasonics, Computer science, Q229367 3D printing, 534 Sound & related vibrations, System identification, Spherical cap, Mechanical engineering, Port (circuit theory), Network theory, Input impedance, Transfer function, Arts and Humanities (miscellaneous), Cascade, Q510293 musical acoustics, Boundary value problem
Abstract

This paper investigates how two-port network theory as a means for system identification can be applied to the analysis of brass instruments. A special focus is placed on the energy conversion efficiency as this is limited by inner damping, which receives much attention by expert players and makers of brasses. Theory suggests that a reconstruction of the 2 × 2 matrix representing the network requires input impedance and transfer function for two different boundary conditions. Besides the normal case of free sound radiation, instruments are also analyzed with the bell closed by a spherical cap. For this purpose, a customized 3D-printed spherical cap was fabricated and attached to the bell. Four measured spectra and the passivity condition over-determine the set of system equations. It is shown how to take advantage of this freedom when analyzing wind instruments. Measurements and simulations of a trumpet and a trombone are presented and compared.

Published
2021

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