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5,102 results on '"Müller, Christoph A."'

1. The effect of niobium thin film structure on losses in superconducting circuits

Author

Drimmer, Maxwell, Telkamp, Sjoerd, Fischer, Felix L., Rodrigues, Ines C., Todt, Clemens, Krizek, Filip, Kriegner, Dominik, Müller, Christoph, Wegscheider, Werner, and Chu, Yiwen

Subjects
Quantum Physics, Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

The performance of superconducting microwave circuits is strongly influenced by the material properties of the superconducting film and substrate. While progress has been made in understanding the importance of surface preparation and the effect of surface oxides, the complex effect of superconductor film structure on microwave losses is not yet fully understood. In this study, we investigate the microwave properties of niobium resonators with different crystalline properties and related surface topographies. We analyze a series of magnetron sputtered films in which the Nb crystal orientation and surface topography are changed by varying the substrate temperatures between room temperature and 975 K. The lowest-loss resonators that we measure have quality factors of over one million at single-photon powers, among the best ever recorded using the Nb on sapphire platform. We observe the highest quality factors in films grown at an intermediate temperature regime of the growth series (550 K) where the films display both preferential ordering of the crystal domains and low surface roughness. Furthermore, we analyze the temperature-dependent behavior of our resonators to learn about how the quasiparticle density in the Nb film is affected by the niobium crystal structure and the presence of grain boundaries. Our results stress the connection between the crystal structure of superconducting films and the loss mechanisms suffered by the resonators and demonstrate that even a moderate change in temperature during thin film deposition can significantly affect the resulting quality factors.

Published
2024

9. Scenario setup and forcing data for impact model evaluation and impact attribution within the third round of the Inter-Sectoral Model Intercomparison Project (ISIMIP3a)

Author

Frieler, Katja, Volkholz, Jan, Lange, Stefan, Schewe, Jacob, Mengel, Matthias, del Rocío Rivas López, María, Otto, Christian, Reyer, Christopher PO, Karger, Dirk Nikolaus, Malle, Johanna T, Treu, Simon, Menz, Christoph, Blanchard, Julia L, Harrison, Cheryl S, Petrik, Colleen M, Eddy, Tyler D, Ortega-Cisneros, Kelly, Novaglio, Camilla, Rousseau, Yannick, Watson, Reg A, Stock, Charles, Liu, Xiao, Heneghan, Ryan, Tittensor, Derek, Maury, Olivier, Büchner, Matthias, Vogt, Thomas, Wang, Tingting, Sun, Fubao, Sauer, Inga J, Koch, Johannes, Vanderkelen, Inne, Jägermeyr, Jonas, Müller, Christoph, Rabin, Sam, Klar, Jochen, del Valle, Iliusi D Vega, Lasslop, Gitta, Chadburn, Sarah, Burke, Eleanor, Gallego-Sala, Angela, Smith, Noah, Chang, Jinfeng, Hantson, Stijn, Burton, Chantelle, Gädeke, Anne, Li, Fang, Gosling, Simon N, Schmied, Hannes Müller, Hattermann, Fred, Wang, Jida, Yao, Fangfang, Hickler, Thomas, Marcé, Rafael, Pierson, Don, Thiery, Wim, Mercado-Bettín, Daniel, Ladwig, Robert, Ayala-Zamora, Ana Isabel, Forrest, Matthew, and Bechtold, Michel

Subjects
Earth Sciences, Atmospheric Sciences, Climate Action, Earth sciences
Abstract

Abstract. This paper describes the rationale and the protocol of the first component of the third simulation round of the Inter-Sectoral Impact Model Intercomparison Project (ISIMIP3a, http://www.isimip.org, last access: 2 November 2023) and the associated set of climate-related and direct human forcing data (CRF and DHF, respectively). The observation-based climate-related forcings for the first time include high-resolution observational climate forcings derived by orographic downscaling, monthly to hourly coastal water levels, and wind fields associated with historical tropical cyclones. The DHFs include land use patterns, population densities, information about water and agricultural management, and fishing intensities. The ISIMIP3a impact model simulations driven by these observation-based climate-related and direct human forcings are designed to test to what degree the impact models can explain observed changes in natural and human systems. In a second set of ISIMIP3a experiments the participating impact models are forced by the same DHFs but a counterfactual set of atmospheric forcings and coastal water levels where observed trends have been removed. These experiments are designed to allow for the attribution of observed changes in natural, human, and managed systems to climate change, rising CH4 and CO2 concentrations, and sea level rise according to the definition of the Working Group II contribution to the IPCC AR6.

Published
2024

19. A Viscous and Heat Conducting Ghost Fluid Method for Multi-Fluid Simulations

Author

Jöns, Steven, Müller, Christoph, Hintz, Johanna, Beck, Andrea, and Munz, Claus-Dieter

Subjects
Physics - Fluid Dynamics, Physics - Computational Physics
Abstract

The ghost fluid method allows a propagating interface to remain sharp during a numerical simulation. The solution of the Riemann problem at the interface provides proper information to determine interfacial fluxes as well as the velocity of the phase boundary. Then considering two-material problems, the initial states of the Riemann problem belong to different fluids, which may have different equations of states. In the inviscid case, the solution of the multi-fluid Riemann problem is an extension of the classical Riemann problem for a single fluid. The jump of the initial states between different fluids generates waves in both fluids and induces a movement of the interface, similar to a contact discontinuity. More subtle is the extension to viscous and heat conduction terms which is the main focus of this paper. We account for the discontinuous coefficients of viscosity and heat conduction at the multi-fluid interface and derive solutions of the Riemann problem for these parabolic terms, from which we can derive parabolic, interfacial fluxes.

Published
2023

20. Towards a unified picture of polarization transfer -- pulsed DNP and chemically equivalent PHIP

Author

Korzeczek, Martin C., Dagys, Laurynas, Müller, Christoph, Tratzmiller, Benedikt, Salhov, Alon, Eichhorn, Tim, Scheuer, Jochen, Knecht, Stephan, Plenio, Martin B., and Schwartz, Ilai

Subjects
Quantum Physics
Abstract

Nuclear spin hyperpolarization techniques, such as dynamic nuclear polarization (DNP) and parahydrogen-induced polarization (PHIP), have revolutionized nuclear magnetic resonance and magnetic resonance imaging. In these methods, a readily available source of high spin order, either electron spins in DNP or singlet states in hydrogen for PHIP, is brought into close proximity with nuclear spin targets, enabling efficient transfer of spin order under external quantum control. Despite vast disparities in energy scales and interaction mechanisms between electron spins in DNP and nuclear singlet states in PHIP, a pseudo-spin formalism allows us to establish an intriguing equivalence. As a result, the important low-field polarization transfer regime of PHIP can be mapped onto an analogous system equivalent to pulsed-DNP. This establishes a correspondence between key polarization transfer sequences in PHIP and DNP, facilitating the transfer of sequence development concepts. This promises fresh insights and significant cross-pollination between DNP and PHIP polarization sequence developers., Comment: 11+5 pages, 5 figures

Published
2023
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21. Inhibition of DHCR24 activates LXRα to ameliorate hepatic steatosis and inflammation.

Author

Zhou, Enchen, Ge, Xiaoke, Nakashima, Hiroyuki, Li, Rumei, van der Zande, Hendrik, Liu, Cong, Li, Zhuang, Müller, Christoph, Bracher, Franz, Mohammed, Yassene, de Boer, Jan, Kuipers, Folkert, Guigas, Bruno, Glass, Christopher, Rensen, Patrick, Giera, Martin, and Wang, Yanan

Subjects
Kupffer cell, desmosterol, liver X receptor, nonalcoholic steatohepatitis, Δ24-dehydrocholesterol reductase, Mice, Humans, Animals, Non-alcoholic Fatty Liver Disease, Desmosterol, Liver, Inflammation, Oxidoreductases, Mice, Inbred C57BL, Nerve Tissue Proteins, Oxidoreductases Acting on CH-CH Group Donors
Abstract

Liver X receptor (LXR) agonism has theoretical potential for treating NAFLD/NASH, but synthetic agonists induce hyperlipidemia in preclinical models. Desmosterol, which is converted by Δ24-dehydrocholesterol reductase (DHCR24) into cholesterol, is a potent endogenous LXR agonist with anti-inflammatory properties. We aimed to investigate the effects of DHCR24 inhibition on NAFLD/NASH development. Here, by using APOE*3-Leiden. CETP mice, a well-established translational model that develops diet-induced human-like NAFLD/NASH characteristics, we report that SH42, a published DHCR24 inhibitor, markedly increases desmosterol levels in liver and plasma, reduces hepatic lipid content and the steatosis score, and decreases plasma fatty acid and cholesteryl ester concentrations. Flow cytometry showed that SH42 decreases liver inflammation by preventing Kupffer cell activation and monocyte infiltration. LXRα deficiency completely abolishes these beneficial effects of SH42. Together, the inhibition of DHCR24 by SH42 prevents diet-induced hepatic steatosis and inflammation in a strictly LXRα-dependent manner without causing hyperlipidemia. Finally, we also showed that SH42 treatment decreased liver collagen content and plasma alanine transaminase levels in an established NAFLD model. In conclusion, we anticipate that pharmacological DHCR24 inhibition may represent a novel therapeutic strategy for treatment of NAFLD/NASH.

Published
2023

23. Abschreckung im Weltraum. Verstärkte Abschreckung durch hochflexible Weltraumfähigkeiten

Author

Müller, Christoph, Jung, Wolfgang, Ben, Charles, Ohndorf, Andreas, Zimper, Dirk, Fels, Enrico, Series Editor, Hilz, Wolfram, Series Editor, Hornidge, Anna-Katharina, Series Editor, Kronenberg, Volker, Series Editor, Mayer, Maximilian, Series Editor, Schlie, Ulrich, Series Editor, Nötzold, Antje, editor, Rotter, Andrea, editor, and Brake, Moritz, editor

Published
2024
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25. Temperature distribution in a gas-solid fixed bed probed by rapid magnetic resonance imaging

Author

Serial, M. Raquel, Benders, Stefan, Rotzetter, Perrine, Brummerloh, Daniel L., Metzger, Jens P., Gross, Simon P., Nussbaumc, Jennifer, Müller, Christoph R., Pruessmann, Klaas P., and Penn, Alexander

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Controlling the temperature distribution inside catalytic fixed bed reactors is crucial for yield optimization and process stability. Yet, in situ temperature measurements with spatial and temporal resolution are still challenging. In this work, we perform temperature measurements in a cylindrical fixed bed reactor by combining the capabilities of real-time magnetic resonance imaging (MRI) with the temperature-dependent proton resonance frequency (PRF) shift of water. Three-dimensional (3D) temperature maps are acquired while heating the bed from room temperature to 60~$^{\circ}$C using hot air. The obtained results show a clear temperature gradient along the axial and radial dimensions and agree with optical temperature probe measurements with an average error of $\pm$ 1.5~$^{\circ}$C. We believe that the MR thermometry methodology presented here opens new perspectives for the fundamental study of mass and heat transfer in gas-solid fixed beds and in the future might be extended to the study of reactive gas-solid systems.

Published
2022

29. Fingering instabilities in binary granular systems

Author

Liu, Meng, Conzelmann, Nicholas A., Girardin, Louis, Dickhardt, Fabian J., McLaren, Christopher P., Metzger, Jens. P., and Müller, Christoph R.

Subjects
Condensed Matter - Soft Condensed Matter
Abstract

Fingering instabilities akin to the Rayleigh-Taylor (RT) instability in fluids have been observed in a binary granular system consisting of dense and small particles layered on top of lighter and larger particles, when the system is subjected to vertical vibration and fluidizing gas flow. Using observations from experiments and numerical modelling we explore whether the theory developed to describe the Rayleigh-Taylor (RT) instability in fluids is also applicable to binary granular systems. Our results confirm the applicability of the classic RT instability theory for binary granular systems demonstrating that several key features are observed in both types of systems, viz: (i) The characteristic wavenumber of the instability is constant with time, (ii) the amplitude of the characteristic wavenumber initially grows exponentially and (iii) the dispersion relation between the wavenumbers k of the interface instability and the growth rates n(k) of their amplitudes holds in both fluid-fluid and binary granular systems. Our results also demonstrate that inter-particle friction is essential for the RT instability to occur in granular media. For zero particle friction the interface instability bears a greater resembles to the Richtmyer-Meshkov instability. We further define a yield criterion Y for the interface by treating the granular medium as a viscoplastic material; only for Y > 15 fingering occurs. Interestingly, previous work has shown that instabilities in the Earth's lower mantle, another viscoplastic material, also occur for similar values of Y., Comment: 13 pages, 14 figures (including appendices)

Published
2022

32. Radio-Frequency Sweeps at {\mu}T Fields for Parahydrogen-Induced Polarization of Biomolecules

Author

Marshall, Alastair, Salhov, Alon, Gierse, Martin, Müller, Christoph, Keim, Michael, Lucas, Sebastian, Parker, Anna, Scheuer, Jochen, Vassiliou, Christophoros, Neumann, Philipp, Jelezko, Fedor, Retzker, Alex, Blanchard, John W., Schwartz, Ilai, and Knecht, Stephan

Subjects
Physics - Chemical Physics
Abstract

Magnetic resonance imaging of $^{13}$C-labeled metabolites enhanced by parahydrogen-induced polarization (PHIP) can enable real-time monitoring of processes within the body. We introduce a robust, easily implementable technique for transferring parahydrogen-derived singlet order into 13C magnetization using adiabatic radio-frequency sweeps at $\mu$T fields. We experimentally demonstrate the applicability of this technique to several molecules, including some molecules relevant for metabolic imaging, where we show significant improvements in the achievable polarization, in some cases reaching above 60%. Furthermore, we introduce a site-selective deuteration scheme, where deuterium is included in the coupling network of a pyruvate ester to enhance the efficiency of the polarization transfer. These improvements are enabled by the fact that the transfer protocol avoids relaxation induced by strongly coupled quadrupolar nuclei.

Published
2022
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41. Macroscopic Hyperpolarization Enhanced with Quantum Optimal Control

Author

Marshall, Alastair, Reisser, Thomas, Rembold, Phila, Müller, Christoph, Scheuer, Jochen, Gierse, Martin, Eichhorn, Tim, Steiner, Jakob M., Hautle, Patrick, Calarco, Tommaso, Jelezko, Fedor, Plenio, Martin B., Montangero, Simone, Schwartz, Ilai, Müller, Matthias M., and Neumann, Philipp

Subjects
Quantum Physics
Abstract

Hyperpolarization of nuclear spins enhances nuclear magnetic resonance signals, which play a key role for imaging and spectroscopy in the natural and life sciences. This signal amplification unlocks previously inaccessible techniques, such as metabolic imaging of cancer cells. In this work, electron spins from the photoexcited triplet state of pentacene-doped naphthalene crystals are used to polarize surrounding protons. As existing strategies are rendered less effective by experimental constraints, they are replaced with optimal control pulses designed with RedCRAB. In contrast to previous optimal control approaches, which consider an average single nucleus, this closed-loop optimization is macroscopic. A 28% improvement in signal and 15% faster polarization rate is observed. Additionally, a strategy called Autonomously-optimized Repeated Linear Sweep (ARISE) is introduced to efficiently tailor existing hyperpolarization sequences in the presence of experimental uncertainty to enhance their performance. ARISE is expected to be broadly applicable in many experimental settings., Comment: 15 pages, 9 figures

Published
2021
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42. The onset and dynamics of avalanches in a rotating cylinder: From experimental data to a new geometric model

Author

McLaren, Christopher P., Leistner, Bernhard J., Pinzello, Sebastian, Cano-Pleite, Eduardo, and Müller, Christoph R.

Subjects
Condensed Matter - Soft Condensed Matter, Condensed Matter - Other Condensed Matter
Abstract

Particle image velocimetry has been applied to measure particle velocities on the free surface of a bed of particles within a rotating cylinder during avalanching. The particle velocities were used to examine the validity of existing avalanche models and to propose an alternative model. The movement of particles depends on their location on the surface of the bed: particles located near the center of the bed travel the farthest, while the distance travelled decreases at an increasing rate for particles located farther from the center. The start of an avalanche can be determined to a single initiation point, that can also be located on the bottom half of the bed; the avalanche quickly propagates through the entire free surface, with 90% of the surface in motion within 257 ms. The experimental insight is used to formulate a new geometric model, in which three equal sized sections flow down the bed during an avalanche. The predictions of the model are confirmed by experimental mixing measurements.

Published
2021
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44. Social Status of Students with Intellectual Disabilities in Special Needs Schools: The Role of Students' Problem Behavior and Descriptive Classroom Norms

Author

Schoop-Kasteler, Noemi, Hofmann, Verena, Cillessen, Antonius H. N., and Müller, Christoph M.

Abstract

Introduction: Individual social status among peers (i.e., acceptance and rejection) has important implications for students' social and academic development. The present study investigates the role of individual problem behavior and classroom norms in the development of acceptance and rejection among students with intellectual disabilities (ID) in special needs schools. Methods: School staff reported on problem behavior and social status of 1125 students with ID (M = 11.26 years, SD = 3.76; 31% female) in special needs schools at the beginning and end of a school year. Results: More individual problem behavior at the beginning of the year predicted students' lower acceptance and greater rejection at the end of the year, controlling for earlier problem behavior and other variables. The effect of problem behavior was independent of the prevailing classroom norms. Conclusion: Our findings show that behavioral problems pose a risk for social exclusion of students with ID among their peers in special needs settings.

Published
2023
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45. On the rising and sinking of granular bubbles and droplets

Author

Metzger, Jens P., Girardin, Louis, Conzelmann, Nicholas A., and Müller, Christoph R.

Subjects
Condensed Matter - Soft Condensed Matter, 76T25
Abstract

Recently, the existence of so-called granular bubbles and droplets has been demonstrated experimentally. Granular bubbles and droplets are clusters of particles that respectively rise and sink if submerged in an aerated and vibrated bed of another granular material of different size and/or density. However, currently there is no model that explains the coherent motion of these clusters and predicts the transition between a rising and sinking motion. Here, we propose an analytical model predicting accurately the neutral buoyancy limit of a granular bubble/droplet. This model allows the compilation of a regime map identifying five distinct regimes of granular bubble/droplet motion.

Published
2021
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