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Your search keyword '"Krüger, D."' showing total 1,157 results
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1,157 results on '"Krüger, D."'

1. Electron dynamics in planar radio frequency magnetron plasmas: II. Heating and energization mechanisms studied via a 2d3v particle-in-cell/Monte Carlo code

Author

Eremin, D., Berger, B., Engel, D., Kallähn, J., Köhn, K., Krüger, D., Xu, L., Oberberg, M., Wölfel, C., Lunze, J., Awakowicz, P., Schulze, J., and Brinkmann, R. P.

Subjects
Physics - Plasma Physics
Abstract

The present work investigates electron transport and heating mechanisms using an (r, z) particle-in-cell (PIC) simulation of a typical rf-driven axisymmetric magnetron discharge with a conducting target. It is shown that for the considered magnetic field topology the electron current flows through different channels in the (r, z) plane: a ``transverse'' one, which involves current flow through the electrons' magnetic confinement region (EMCR) above the racetrack, and two ''longitudinal'' ones. Electrons gain energy from the electric field along these channels following various mechanisms, which are rather distinct from those sustaining dc-powered magnetrons. The longitudinal power absorption involves mirror-effect heating (MEH), nonlinear electron resonance heating (NERH), magnetized bounce heating (MBH), and the heating by the ambipolar field at the sheath-presheath interface. The MEH and MBH represent two new mechanisms missing from the previous literature. The MEH is caused by a reversed electric field needed to overcome the mirror force generated in a nonuniform magnetic field to ensure sufficient flux of electrons to the powered electrode, and the MBH is related to a possibility for an electron to undergo multiple reflections from the expanding sheath in the longitudinal channels connected by the arc-like magnetic field. The electron heating in the transverse channel is caused mostly by the essentially collisionless Hall heating in the EMCR above the racetrack, generating a strong ExB azimuthal drift velocity. The latter mechanism results in an efficient electron energization, i.e., energy transfer from the electric field to electrons in the inelastic range. Since the main electron population energized by this mechanism remains confined within the discharge for a long time, its contribution to the ionization processes is dominant.

Published
2022
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4. Shine BRITE: shedding light on stellar variability through advanced models

Author

Fabbian, D., Kupka, F., Krueger, D., Kostogryz, N. M., and Piskunov, N.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The correct interpretation of the large amount of complex data from next-generation (in particular, space-based) observational facilities requires a very strong theoretical underpinning. One can thus predict that in the near future the use of atmospheric models obtained through the use of three-dimensional (3-D) radiation magnetohydrodynamics (RMHD) codes, coupled with advanced radiative transfer treatment including non-local thermodynamic equilibrium (non-LTE) effects and polarisation, will become the norm. In particular, stellar brightness variability in cool (i. e., spectral type F, G, K, and M) stars can be induced by several different effects, besides pulsation. We briefly discuss some literature results and mention some of our recent progress. Finally, we attempt to peek into the future of understanding this important aspect of the life of stars., Comment: 5 pages, 3 figures, Proceedings of "Stars and their variability observed from space". Editors: C. Neiner, W. Weiss, D. Baade, E. Griffin, C. Lovekin, A. Moffat. To appear online at the conference website: https://starsandspace.univie.ac.at

Published
2020

5. Cell-Free Blood Cell Secretome (BCS) Counteracts Skin Aging: Multi-Center Prospective Regenerative Aesthetic Medicine Study Using Exokine&reg

Author

Kerscher M, Wagner-Schiffler S, Noah EM, Fischer T, Greiner-Krüger D, Sattler S, Kaptan T, Drabik A, Hamed G, Reinecke J, and Wehling J

Subjects
cell-free blood cell secretome, bcs, autologous conditioned serum, acs, skin quality, regeneration, autologous, rejuvenation., Dermatology, RL1-803
Abstract

Martina Kerscher,1 Sylvia Wagner-Schiffler,2 Ernst Magnus Noah,3 Tanja Fischer,4 Daniela Greiner-Krüger,5 Sonja Sattler,6 Tanju Kaptan,7 Attyla Drabik,8 Glyn Hamed,9 Julio Reinecke,7 Jana Wehling10 1Division of Cosmetic Sciences, University of Hamburg, Hamburg, Germany; 2Dermatologische Praxis, Aachen, Germany; 3Noahklinik und Klinik für Plastische Chirurgie, Kassel, Germany; 4Haut und Lasercentrum, Potsdam, Germany; 5MediCorium, Zentrum für Dermatologie und Ästhetik, Oberursel, Germany; 6Rosenpark Klinik, Darmstadt, Germany; 7ORTHOGEN AG, Düsseldorf, Germany; 8Clinical Trial Support, Münster, Germany; 9Practice Dr. Wehling and Partner, Düsseldorf, Germany; 10Krankenhaus Neuwerk, Mönchengladbach, GermanyCorrespondence: Glyn Hamed, Email glyn.hamed@doctor-wehling.comBackground: The “Inflammation Theory of Ageing” identifies pro-inflammatory cytokines and oxidative damage as one cause of cellular and mitochondrial deterioration and aging. Cell-free blood cell secretome (BCS) also known as autologous conditioned serum (ACS) has shown anti-inflammatory and regenerative mode of action in musculoskeletal disorders and radicular compression.Aim: To confirm that BCS can improve signs of skin aging from a previous study in a multi-center setting.Methods: Prospective, one-armed, multi-center interventional therapeutic study. Ninety-five women with skin firmness loss were treated with four intra-dermal injection sessions in both cheeks at 0, 2, 4 and 6 weeks. BCS was processed with Exokine® medical device according to manufacturer’s instructions. Primary endpoints were cutometric R0 and R3 at 12 and 24 weeks. GAIS, FACE-QTM, Patient Attractivity Self-Assessment and safety were evaluated.Results: Mean skin firmness (R0) improved significantly from baseline 0.40 mm to 0.38 mm at week 12 and to 0.36 mm at week 24. Mean skin tiring (R3) improved significantly from baseline 0.45 mm to 0.42 mm at week 12 and to 0.40 at week 24. FACE-QTM “Satisfaction with Skin” significantly improved from baseline to weeks 12, 24 and 48. So did “Satisfaction with Facial Appearance” and “Psychological and Social Function”. “Satisfaction with Decision” and “Satisfaction with Outcome” were stable at week 24 and 48. At week 48 patients assessed their age 1.68 years younger vs Baseline. FACE-QTM aging appraisal improves from Baseline 52.94 to 65.23 at week 48. GAIS, by both physicians and patients, confirm improvement of skin.Conclusion: For up to 48 weeks four intra-dermal injections with cell-free BCS increase facial skin firmness and resilience to tiring and patients’ satisfaction with their facial appearance and skin. Patients perceive their face as younger. BCS has the ability to sustainably rejuvenate facial skin safely.Study Registration: Registration on German clinical trials register: DRKS00013014.Keywords: cell-free blood cell secretome, BCS, autologous conditioned serum, ACS, skin quality, regeneration, autologous, rejuvenation

Published
2022

10. Nationale Eigenversorgung und Bedarf an internationalem Energiebezug

Author

Neumann, N., Rincon Duarte, J.P., Neises-von Puttkamer, M., Pregger, T., Krüger, D., Meisel, K., Kost, C., Jordan, Matthias, Neumann, N., Rincon Duarte, J.P., Neises-von Puttkamer, M., Pregger, T., Krüger, D., Meisel, K., Kost, C., and Jordan, Matthias

Published
2024

39. Pre-design of a Mini CSP Plant

Author

Krüger, D., Kenissi, A., Dieckmann, S., Bouden, C., Baba, A., Oliveira, A., Soares, J., Bravo, E. Rojas, Cheikh, R. Ben, Orioli, F., Gasperini, D., Hennecke, K., and Schenk, H.

Published
2015
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