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1. Longitudinal analysis of peripheral immune cells in patients with multiple sclerosis treated with anti‐CD20 therapy

Author

Mie Waede, Lasse F. Voss, Christina Kingo, Jesper B. Moeller, Maria L. Elkjaer, and Zsolt Illes

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objective Anti‐CD20 therapy is a highly effective treatment for multiple sclerosis (MS). In this study, we investigated MS‐related changes in peripheral blood mononuclear cell (PBMC) subsets compared to healthy controls and longitudinal changes related to the treatment. Methods Multicolor spectral flow cytometry analysis was performed on 78 samples to characterize disease‐ and treatment‐related PBMC clusters. Blood samples from MS patients were collected at baseline and up to 8 months post‐treatment, with three collection points after treatment initiation. Unsupervised clustering tools and manual gating were applied to identify subclusters of interest and quantify changes. Results B cells were depleted from the periphery after anti‐CD20 treatment as expected, and we observed an isolated acute, transitory drop in the proportion of natural killer (NK) and NKT cells among the main populations of PBMC (P = 0.03, P = 0.004). Major affected PBMC subpopulations were cytotoxic immune cells (NK, NKT, and CD8+ T cells), and we observed a higher proportion of cytotoxic cells with reduced brain‐homing ability and a higher regulatory function as a long‐term anti‐CD20‐related effect. Additionally, anti‐CD20 therapy altered distributions of memory CD8+ T cells and reduced exhaustion markers in both CD4+ and CD8+ T cells. Interpretation The findings of this study elucidate phenotypic clusters of NK and CD8+ T cells, which have previously been underexplored in the context of anti‐CD20 therapy. Phenotypic modifications towards a more regulatory and controlled phenotype suggest that these subpopulations may play a critical and previously unrecognized role in mediating the therapeutic efficacy of anti‐CD20 treatments.

Published
2024
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2. Climate change impact on available water resources obtained using multiple global climate and hydrology models

Author

S. Hagemann, C. Chen, D. B. Clark, S. Folwell, S. N. Gosling, I. Haddeland, N. Hanasaki, J. Heinke, F. Ludwig, F. Voss, and A. J. Wiltshire

Subjects
Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5
Abstract

Climate change is expected to alter the hydrological cycle resulting in large-scale impacts on water availability. However, future climate change impact assessments are highly uncertain. For the first time, multiple global climate (three) and hydrological models (eight) were used to systematically assess the hydrological response to climate change and project the future state of global water resources. This multi-model ensemble allows us to investigate how the hydrology models contribute to the uncertainty in projected hydrological changes compared to the climate models. Due to their systematic biases, GCM outputs cannot be used directly in hydrological impact studies, so a statistical bias correction has been applied. The results show a large spread in projected changes in water resources within the climate–hydrology modelling chain for some regions. They clearly demonstrate that climate models are not the only source of uncertainty for hydrological change, and that the spread resulting from the choice of the hydrology model is larger than the spread originating from the climate models over many areas. But there are also areas showing a robust change signal, such as at high latitudes and in some midlatitude regions, where the models agree on the sign of projected hydrological changes, indicative of higher confidence in this ensemble mean signal. In many catchments an increase of available water resources is expected but there are some severe decreases in Central and Southern Europe, the Middle East, the Mississippi River basin, southern Africa, southern China and south-eastern Australia.

Published
2013
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3. Statistical bias correction of global climate projections – consequences for large scale modeling of flood flows

Author

S. Eisner, F. Voss, and E. Kynast

Subjects
Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5
Abstract

General circulation models (GCMs) project an increasing frequency and intensity of heavy rainfall events due to global climate change. This rather holds true for regions that are even expected to experience an overall decrease in average annual precipitation. Consequently, this may be attended by an increasing frequency and magnitude of flood events. However, time series of GCMs show a bias in simulating 20th century precipitation and temperature fields and, therefore, cannot directly be used to force hydrological models in order to assess the impact of the projected climate change on certain components of the hydrological cycle. For a posteriori correction, the so-called delta change approach is widely-used which adds the 30-year monthly differences for temperature or ratios for precipitation of the GCM data to each month of a historic climate data set. As the variability of the climate variables in the scenario period is not transferred, this approach is especially questionable if discharge extremes are to be analyzed. In order to preserve the variability given by the GCM, methods of statistical bias correction are applied. This study aims to investigate the impact of two methods of bias correction, the delta change approach and a statistical bias correction, on the large scale modeling of flood discharges, using the example of 25 macroscale catchments in Europe. The discharge simulation is carried out with the global integrated model WaterGAP3 (Water – Global Assessment and Prognosis). Results show that the two bias correction methods lead to distinctively different trends in future flood flows.

Published
2012
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4. Effects of climate model radiation, humidity and wind estimates on hydrological simulations

Author

I. Haddeland, J. Heinke, F. Voß, S. Eisner, C. Chen, S. Hagemann, and F. Ludwig

Subjects
Technology, Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350
Abstract

Due to biases in the output of climate models, a bias correction is often needed to make the output suitable for use in hydrological simulations. In most cases only the temperature and precipitation values are bias corrected. However, often there are also biases in other variables such as radiation, humidity and wind speed. In this study we tested to what extent it is also needed to bias correct these variables. Responses to radiation, humidity and wind estimates from two climate models for four large-scale hydrological models are analysed. For the period 1971–2000 these hydrological simulations are compared to simulations using meteorological data based on observations and reanalysis; i.e. the baseline simulation. In both forcing datasets originating from climate models precipitation and temperature are bias corrected to the baseline forcing dataset. Hence, it is only effects of radiation, humidity and wind estimates that are tested here. The direct use of climate model outputs result in substantial different evapotranspiration and runoff estimates, when compared to the baseline simulations. A simple bias correction method is implemented and tested by rerunning the hydrological models using bias corrected radiation, humidity and wind values. The results indicate that bias correction can successfully be used to match the baseline simulations. Finally, historical (1971–2000) and future (2071–2100) model simulations resulting from using bias corrected forcings are compared to the results using non-bias corrected forcings. The relative changes in simulated evapotranspiration and runoff are relatively similar for the bias corrected and non bias corrected hydrological projections, although the absolute evapotranspiration and runoff numbers are often very different. The simulated relative and absolute differences when using bias corrected and non bias corrected climate model radiation, humidity and wind values are, however, smaller than literature reported differences resulting from using bias corrected and non bias corrected climate model precipitation and temperature values.

Published
2012
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5. On the spatio-temporal analysis of hydrological droughts from global hydrological models

Author

G. A. Corzo Perez, M. H. J. van Huijgevoort, F. Voß, and H. A. J. van Lanen

Subjects
Technology, Environmental technology. Sanitary engineering, TD1-1066, Geography. Anthropology. Recreation, Environmental sciences, GE1-350
Abstract

The recent concerns for world-wide extreme events related to climate change have motivated the development of large scale models that simulate the global water cycle. In this context, analysis of hydrological extremes is important and requires the adaptation of identification methods used for river basin models. This paper presents two methodologies that extend the tools to analyze spatio-temporal drought development and characteristics using large scale gridded time series of hydrometeorological data. The methodologies are classified as non-contiguous and contiguous drought area analyses (i.e. NCDA and CDA). The NCDA presents time series of percentages of areas in drought at the global scale and for pre-defined regions of known hydroclimatology. The CDA is introduced as a complementary method that generates information on the spatial coherence of drought events at the global scale. Spatial drought events are found through CDA by clustering patterns (contiguous areas). In this study the global hydrological model WaterGAP was used to illustrate the methodology development. Global gridded time series of subsurface runoff (resolution 0.5°) simulated with the WaterGAP model from land points were used. The NCDA and CDA were developed to identify drought events in runoff. The percentages of area in drought calculated with both methods show complementary information on the spatial and temporal events for the last decades of the 20th century. The NCDA provides relevant information on the average number of droughts, duration and severity (deficit volume) for pre-defined regions (globe, 2 selected hydroclimatic regions). Additionally, the CDA provides information on the number of spatially linked areas in drought, maximum spatial event and their geographic location on the globe. Some results capture the overall spatio-temporal drought extremes over the last decades of the 20th century. Events like the El Niño Southern Oscillation (ENSO) in South America and the pan-European drought in 1976 appeared clearly in both analyses. The methodologies introduced provide an important basis for the global characterization of droughts, model inter-comparison of drought identified from global hydrological models and spatial event analyses.

Published
2011
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6. Modelling historical and current irrigation water demand on the continental scale: Europe

Author

T. aus der Beek, M. Flörke, D. M. Lapola, R. Schaldach, F. Voß, and E. Teichert

Subjects
Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5
Abstract

Water abstractions for irrigation purposes are higher than for any other pan-European water use sector and have a large influence on river runoff regimes. This modelling experiment assesses historic and current irrigation water demands for different crops in five arc minute spatial resolution for pan-Europe. Two different modelling frameworks have been applied in this study. First, soft-coupling the dynamic vegetation model LPJmL with the land use model LandSHIFT leads to overestimations of national irrigation water demands, which are rather high in the southern Mediterranean countries. This can be explained by unlimited water supply in the model structure and illegal or not gauged water abstractions in the reported data sets. The second modelling framework is WaterGAP3, which has an integrated conceptual crop specific irrigation module. Irrigation water requirements as modelled with WaterGAP3 feature a more realistic representation of pan-European water withdrawals. However, in colder humid regions, irrigation water demands are often underestimated. Additionally, a national database on crop-specific irrigated area and water withdrawal for all 42 countries within pan-Europe has been set up and integrated in both model frameworks.

Published
2010
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7. Combination of different types of ensembles for the adaptive simulation of probabilistic flood forecasts: hindcasts for the Mulde 2002 extreme event

Author

J. Dietrich, S. Trepte, Y. Wang, A. H. Schumann, F. Voß, F. B. Hesser, and M. Denhard

Subjects
Science, Physics, QC1-999, Geophysics. Cosmic physics, QC801-809
Abstract

Flood forecasts are essential to issue reliable flood warnings and to initiate flood control measures on time. The accuracy and the lead time of the predictions for head waters primarily depend on the meteorological forecasts. Ensemble forecasts are a means of framing the uncertainty of the potential future development of the hydro-meteorological situation. This contribution presents a flood management strategy based on probabilistic hydrological forecasts driven by operational meteorological ensemble prediction systems. The meteorological ensemble forecasts are transformed into discharge ensemble forecasts by a rainfall-runoff model. Exceedance probabilities for critical discharge values and probabilistic maps of inundation areas can be computed and presented to decision makers. These results can support decision makers in issuing flood alerts. The flood management system integrates ensemble forecasts with different spatial resolution and different lead times. The hydrological models are controlled in an adaptive way, mainly depending on the lead time of the forecast, the expected magnitude of the flood event and the availability of measured data. The aforementioned flood forecast techniques have been applied to a case study. The Mulde River Basin (South-Eastern Germany, Czech Republic) has often been affected by severe flood events including local flash floods. Hindcasts for the large scale extreme flood in August 2002 have been computed using meteorological predictions from both the COSMO-LEPS ensemble prediction system and the deterministic COSMO-DE local model. The temporal evolution of a) the meteorological forecast uncertainty and b) the probability of exceeding flood alert levels is discussed. Results from the hindcast simulations demonstrate, that the systems would have predicted a high probability of an extreme flood event, if they would already have been operational in 2002. COSMO-LEPS showed a reasonably good performance within a lead time of 2 to 3 days. Some of the deterministic very short-range forecast initializations were able to predict the dynamics of the event, but others underpredicted rainfall. Thus a lagged average ensemble approach is suggested. The findings from the case study support the often proposed added value of ensemble forecasts and their probabilistic evaluation for flood management decisions.

Published
2008

8. Identifying and reducing model structure uncertainty based on analysis of parameter interaction

Author

Y. Wang, J. Dietrich, F. Voss, and M. Pahlow

Subjects
Science, Geology, QE1-996.5, Dynamic and structural geology, QE500-639.5
Abstract

Multi-objective optimization algorithms are widely used for the calibration of conceptual hydrological models. Such algorithms yield a set of Pareto-optimal solutions, reflecting the model structure uncertainty. In this study, a multi-objective optimization strategy is suggested, which aims at reducing the model structure uncertainty by considering parameter interaction within Pareto-optimal solutions. The approach has been used to develop a nested setup of a rainfall-runoff model, which is integrated in a probabilistic meso-/macroscale flood forecasting system. The optimization strategy aided in determining the best combination of a lumped (computationally efficient in operational real time forecasting) and a semi-distributed parameterization of the hydrological model. First results are shown for two subbasins of the Mulde catchment in Germany. The different phenomena of parameter interaction were analysed in this case study to reduce the model structure uncertainties.

Published
2007

9. Antigen presentation by B cells enables epitope spreading across an MHC barrier

Author

Cecilia Fahlquist-Hagert, Thomas R. Wittenborn, Ewa Terczyńska-Dyla, Kristian Savstrup Kastberg, Emily Yang, Alysa Nicole Rallistan, Quinton Raymond Markett, Gudrun Winther, Sofie Fonager, Lasse F. Voss, Mathias K. Pedersen, Nina van Campen, Alexey Ferapontov, Lisbeth Jensen, Jinrong Huang, John D. Nieland, Cees E. van der Poel, Johan Palmfeldt, Michael C. Carroll, Paul J. Utz, Yonglun Luo, Lin Lin, and Søren E. Degn

Subjects
Science
Abstract

Abstract Circumstantial evidence suggests that B cells may instruct T cells to break tolerance. Here, to test this hypothesis, we used a murine model in which a single B cell clone precipitates an autoreactive response resembling systemic lupus erythematosus (SLE). The initiating clone did not need to enter germinal centers to precipitate epitope spreading. Rather, it localized to extrafollicular splenic bridging channels early in the response. Autoantibody produced by the initiating clone was not sufficient to drive the autoreactive response. Subsequent epitope spreading depended on antigen presentation and was compartmentalized by major histocompatibility complex (MHC). B cells carrying two MHC haplotypes could bridge the MHC barrier between B cells that did not share MHC. Thus, B cells directly relay autoreactivity between two separate compartments of MHC-restricted T cells, leading to inclusion of distinct B cell populations in germinal centers. Our findings demonstrate that B cells initiate and propagate the autoimmune response.

Published
2023
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10. Kaltzeitliche Ablagerungen im Hochland von Angola

Author

F. Voss

Subjects
Geology, QE1-996.5
Abstract

Durch Forschungen im Hochland von Angola wurden einige Beweise verschiedenartigen Ursprungs entdeckt, die auf Wirkungen kalter klimatischer Bedingungen in geologisch junger Zeit zurückgehen und wie folgt zusammengefaßt werden können: 1.Die Ausbildung einer früher oberflächenbildenden Steinsohle, wenige Dezimeter unterhalb der heutigen Topographie, scheint sehr weit verbreitet zu sein, sogar über die angegebenen Lokalitäten hinaus. 2. Warventone in der Nähe von Silva Porto entstanden gleichfalls unter ähnlichen klimatischen Einflüssen. Von besonderem Interesse ist jedoch die Diskrepanz zwischen der herkömmlichen Warvenzählung und der Auswertung von Dünnschliffen. Zusätzliche Untersuchungen an anderen Proben werden nötig sein, um das Problem weiter zu verfolgen. 3. Schließlich wurden stark verwulstete, ehemals geschichtete Materialien, Würgeböden, nahe der Oberfläche auf dem „Planalto" südlich von Nova Lisboa gefunden und makro- sowie mikroskopisch untersucht. In der vergleichenden Betrachtung der erarbeiteten verschiedenen Fakten ergibt sich aus der vorläufigen Korrelation mit der bis jetzt verfügbaren Chronologie des Quartärs das Haupt Gamblian (30500—14503 vor der Gegenwart) als Entstehungszeit.

Published
1970
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14. Beta Radiation Hardness of GYGAG(Ce) Transparent Ceramic Scintillators

Author

J. T. Jarrell, N. J. Cherepy, Z. M. Seeley, J. W. Murphy, E. L. Swanberg, L. F. Voss, C. D. Frye, M. A. Stoyer, R. A. Henderson, S. P. O'Neal, and R. J. Nikolic

Subjects
Nuclear and High Energy Physics, Nuclear Energy and Engineering, Electrical and Electronic Engineering
Published
2022

18. The extrafollicular response is sufficient to drive initiation of autoimmunity and early disease hallmarks of lupus

Author

Lasse F. Voss, Amanda J. Howarth, Thomas R. Wittenborn, Sandra Hummelgaard, Kristian Juul-Madsen, Kristian S. Kastberg, Mathias K. Pedersen, Lisbeth Jensen, Anastasios D. Papanastasiou, Thomas Vorup-Jensen, Kathrin Weyer, and Søren E. Degn

Subjects
B cells, Systemic lupus erythematosus, Extrafollicular responses, Immunology, Immunology and Allergy, Autoimmunity, Germinal centers, Autoantibodies, TLR7
Abstract

IntroductionMany autoimmune diseases are characterized by germinal center (GC)-derived, affinity-matured, class-switched autoantibodies, and strategies to block GC formation and progression are currently being explored clinically. However, extrafollicular responses can also play a role. The aim of this study was to investigate the contribution of the extrafollicular pathway to autoimmune disease development.MethodsWe blocked the GC pathway by knocking out the transcription factor Bcl-6 in GC B cells, leaving the extrafollicular pathway intact. We tested the impact of this intervention in two murine models of systemic lupus erythematosus (SLE): a pharmacological model based on chronic epicutaneous application of the Toll-like receptor (TLR)-7 agonist Resiquimod (R848), and 564Igi autoreactive B cell receptor knock-in mice. The B cell intrinsic effects were further investigatedin vitroand in autoreactive mixed bone marrow chimeras.ResultsGC block failed to curb autoimmune progression in the R848 model based on anti-dsDNA and plasma cell output, superoligomeric DNA complexes, and immune complex deposition in glomeruli. The 564Igi model confirmed this based on anti-dsDNA and plasma cell output.In vitro, loss of Bcl-6 prevented GC B cell expansion and accelerated plasma cell differentiation. In a competitive scenarioin vivo, B cells harboring the genetic GC block contributed disproportionately to the plasma cell output.DiscussionWe identified the extrafollicular pathway as a key contributor to autoimmune progression. We propose that therapeutic targeting of low quality and poorly controlled extrafollicular responses could be a desirable strategy to curb autoreactivity, as it would leave intact the more stringently controlled and high-quality GC responses providing durable protection against infection.

Published
2022

21. Radiation Hardness of Si Compared to 4H-SiC for Betavoltaics Assessed by Accelerated Aging Using an Electron Beam System

Author

Lars F. Voss, Roger Henderson, Rebecca J. Nikolic, Joshua T. Jarrell, Qinghui Shao, M. A. Stoyer, John M. Murphy, and Clint D. Frye

Subjects
Materials science, business.industry, Radiation, Condensed Matter Physics, Fluence, Electronic, Optical and Magnetic Materials, Semiconductor, Materials Chemistry, Electron beam processing, Optoelectronics, Irradiation, Electrical and Electronic Engineering, business, Radiation hardening, Common emitter, Diode
Abstract

With the advancement of three-dimensional electronic technologies, 3D betavoltaics consisting of a mixture of a semiconductor converter and a beta emitter have been investigated to increase output power by maximizing the beta absorption in the semiconductor. Semiconductor radiation robustness has typically been evaluated by monitoring electrical properties during the beta irradiation process over a long dwell time. To quickly and safely assess semiconductor candidates for betavoltaics without incorporating high-activity beta emitters, a custom-designed electron beam system as a beta source surrogate has been used. In this work, we report the change of electrical performance of planar 4H-SiC, planar Si, and 3D Si ridge p-i-n diodes irradiated by high-flux and high-fluence electrons. The 4H-SiC diodes were found to suffer 45% degradation to output power with 100 keV electron irradiation at a fluence of 1.3 × 1018 cm−2; however, the Si diodes showed no decrease in performance at the highest fluence of 100 keV electron irradiation of 7 × 1018 cm−2. This demonstrates that Si is more radiation hard than 4H-SiC for 147Pm-based betavoltaics, with an average beta energy of 62 keV.

Published
2021

22. 10-year follow-up of interventional electrophysiology: updated German survey during the COVID-19 pandemic

Author

Lars Eckardt, Florian Doldi, Sonia Busch, David Duncker, H. Estner, M. Kuniss, A. Metzner, C. Meyer, H.-R. Neuberger, R. Tilz, F. Voss, D. Steven, and P. Sommer

Subjects
General Medicine, Cardiology and Cardiovascular Medicine
Abstract

Introduction This study provides an update of survey-based data providing an overview of interventional electrophysiology over the last decade. Overall infrastructure, procedures, and training opportunities in Germany were assessed. Methods By analyzing mandatory quality reports, German cardiology centres performing electrophysiological studies were identified to repeat a questionnaire from 2010 and 2015. Results A complete questionnaire was returned by 192 centers performing about 75% of all ablations in Germany in 2020. In the presence of the COVID-19 pandemic, a total of 76.304 procedures including 68.407 ablations were reported representing a 38% increase compared to 2015. The median number of ablations increased from 180 in 2010 to 377 in 2020. AF was the most common arrhythmia ablated (51 vs. 35% in 2010). PVI with radiofrequency point-by-point ablation (64%) and cryo-balloon ablation (34%) were the preferred strategies. Less than 50 (75) PVI were performed by 31% (36%) of all centres. Only 25 and 24% of participating centres fulfilled EHRA and national requirements for training centre accreditation, respectively. There was a high number of EP centres with no fellows (38%). The proportion of female fellows in EP increased from 26% in 2010 to 33% in 2020. Conclusion Comparing 2020, 2010 and 2015, an increasing number of EP centres and procedures were registered. In 2020, more than every second ablation was for therapy of AF. In the presence of an increasing number of procedures, training opportunities were still limited, and most centres did not fulfill recommended EHRA or national requirements for accreditation. Graphical abstract

Published
2022

24. Plasmonics-Enhanced UV Photocatalytic Water Purification

Author

Allan Chang, Jenny Zhou, Lars F. Voss, Ryan Brisbin, Tiziana C. Bond, Aaron J. Simon, and Ryan D. Baxter

Subjects
Materials science, Photocatalytic decomposition, Portable water purification, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, General Energy, chemistry, Chemical engineering, Titanium dioxide, Photocatalysis, Physical and Theoretical Chemistry, 0210 nano-technology, Plasmon
Abstract

Titanium dioxide (TiO2) is commonly used for photocatalytic decomposition of organic contaminants for the purpose of water purification. One promising method to enhance TiO2 photocatalysis is the i...

Published
2021

25. Characterization of carrier behavior in photonically excited 6H silicon carbide exhibiting fast, high voltage, bulk transconductance properties

Author

A. Schoner, L. Wang, Stephen Sampayan, I. Booker, Paulius Grivickas, Mihail Bora, Hoang T. Nguyen, Lars F. Voss, Kristin Sampayan, Vytautas Grivickas, George J Caporaso, Adam M. Conway, Mikas Vengris, and Kipras Redeckas

Subjects
Materials science, Band gap, Transconductance, Science, 02 engineering and technology, 01 natural sciences, 6H silicon carbide, carrier dynamics, transient spectroscopy, power device, Article, chemistry.chemical_compound, Engineering, Power electronics, 0103 physical sciences, Silicon carbide, 010302 applied physics, Multidisciplinary, business.industry, High voltage, 021001 nanoscience & nanotechnology, Supercontinuum, chemistry, Optics and photonics, Optoelectronics, Medicine, Charge carrier, 0210 nano-technology, business, Excitation
Abstract

Unabated, worldwide trends in CO2 production project growth to > 43-BMT per year over the next two decades. Efficient power electronics are crucial to fully realizing the CO2 mitigating benefits of a worldwide smart grid (~ 18% reduction for the United States alone). Even state-of-the-art SiC high voltage junction devices are inefficient because of slow transition times (~ 0.5-μs) and limited switching rates at high voltage (~ 20-kHz at ≥ 15-kV) resulting from the intrinsically limited charge carrier drift speed (7-cm-s−1). Slow transition times and limited switch rates waste energy through transition loss and hysteresis loss in external magnetic components. Bulk conduction devices, where carriers are generated and controlled nearly simultaneously throughout the device volume, minimize this loss. Such devices are possible using below bandgap excitation of semi-insulating (SI) SiC single crystals. We explored carrier dynamics with a 75-fs single wavelength pump/supercontinuum probe and a modified transient spectroscopy technique and also demonstrated a new class of efficient, high-speed, high-gain, bi-directional, optically-controlled transistor-like power device. At a performance level six times that of existing devices, for the first time we demonstrated prototype operation at multi-10s of kW and 20-kV, 125-kHz in a bulk conduction transistor-like device using direct photon-carrier excitation with below bandgap light.

Published
2021

27. Design and Simulation of Near-Terahertz GaN Photoconductive Switches–Operation in the Negative Differential Mobility Regime and Pulse Compression

Author

Shaloo Rakheja, Kexin Li, Karen M. Dowling, Adam M. Conway, and Lars F. Voss

Subjects
high-field transport, near-terahertz electronics, wide bandgap semiconductors, Electrical engineering. Electronics. Nuclear engineering, Optical triggering, negative differential mobility, pulse compression, TK1-9971
Abstract

The wide bandgap material, Gallium Nitride (GaN), has emerged as the dominant semiconductor material to implement high-electron mobility transistors (HEMTs) that form the basis of RF electronics. GaN is also an excellent material to realize photoconductive switches (PCSS) whose high-frequency performance could exceed that of RF HEMTs. In this paper, we numerically model the output characteristics of a GaN PCSS as a function of the input electrical and optical bias and the device dimensions. Importantly, we show that operating the GaN PCSS in the regime of negative differential mobility significantly benefits its high-frequency performance by compressing the temporal width of the output current pulse, while also enhancing its peak value. We find that when the optically excited carriers are generated in the middle of the active region, the bandwidth of the device is approximately 600 GHz, while delivering an output power exceeding 800 mW with a power gain greater than 35 dB. The output power increases to 1.5 W, and the power gain exceeds 40 dB with a near-terahertz bandwidth (≈ 800 GHz), as the laser source is moved closer to the anode. Finally, we elucidate that under high optical bias with significant electrostatic screening effects, the DC electric field across the device can be boosted to further enhance the performance of the GaN PCSS.

Published
2021

28. Procedure related complications following implantation of cardiac resynchronization therapy (CRT) and implantable cardioverter-defibrillator (ICD) devices - Insights from the German DEVICE registry

Author

L Kaiser, M Hochadel, J Senges, T Kleemann, I Szendey, F Voss, G Steinbeck, M Leschke, C Butter, R Becker, S Willems, and S Hakmi

Subjects
Physiology (medical), Cardiology and Cardiovascular Medicine
Abstract

Funding Acknowledgements Type of funding sources: Foundation. Main funding source(s): Stiftung Institut für Herzinfarktforschung Background The number of patients receiving cardiac resynchronization therapy (CRT) and implantable cardioverter-defibrillator (ICD) devices has been increasing in the last decades. Both CRT and ICD play an essential role in modern heart failure therapy. However, the implantation procedure might be ensued by serious complications. Therefore, knowledge about the prevalence of complications and identification of risk factors are key to improve patient care. Methods Between 2007-2014 the German DEVICE registry enrolled patients from 50 German centers undergoing ICD or CRT implantation. Patient characteristics, data on procedural outcome, adverse events and mortality during index hospitalization and follow-up at 1 year from discharge, were recorded. Patients who suffered from perioperative complications during or shortly after device implantation were identified for comparative analysis with patients without complications. Results Out of 4170 patients enrolled, 119 (2.9%) suffered from procedure related complications. The proportion of female patients suffering from perioperative complications was higher with 29.4%, compared to 18.5% of female patients without complications (p=0.003). There were neither any differences in age (66.3±13.6 vs. 65.4±12.5 years; p=0.13), nor in cardiac or non-cardiac comorbidities and in the indications for device implantation between groups. There was a trend towards a higher rate of complications with procedures on pre-existing devices (24,8 vs. 18.1%; p=0.064), than observed with de-novo implantations (75.2 vs. 81.9%; p=0.064). CRT implantations were more frequent among patients who suffered from complications (46.2 vs. 28.9%; p Conclusion The overall procedure-related complication rate following CRT or ICD implantation is low (2.9%). Among patients with complications female gender and patients receiving CRT devices were more prevalent. Perioperative device complications neither seem to translate into increased in-hospital mortality, nor in increased rates of further device-associated complications, rehospitalizations or death after 1-year follow-up.

Published
2022

31. Extrafollicular responses are sufficient to drive initiation of autoimmunity and early disease hallmarks of lupus

Author

Lasse F. Voss, Amanda J. Howarth, Thomas R. Wittenborn, Sandra Hummelgaard, Kristian Juul-Madsen, Kristian S. Kastberg, Mathias K. Pedersen, Lisbeth Jensen, Anastasios D. Papanastasiou, Thomas Vorup-Jensen, Kathrin Weyer, and Søren E. Degn

Abstract

Many autoimmune diseases are characterized by germinal center (GC) derived affinity-matured, class-switched autoantibodies. Strategies to block GC formation and progression are currently being explored clinically, however, extrafollicular responses may also contribute to early events in autoimmunity. To investigate the relative contribution of these two pathways in autoimmune disease development, we leveraged a transgenic strategy to genetically block the GC pathway. Surprisingly, this accelerated extrafollicular responses and failed to curb autoimmune progression in two lupus models.In vitro, loss of the GC transcription factor Bcl-6 prevented cellular expansion and accelerated plasma cell differentiation, suggesting thein vivophenotype was caused by rewiring of B cell intrinsic transcriptional programming. In a competitive scenarioin vivo, B cells harboring the genetic GC block contributed disproportionately to the plasma cell output. Taken together, this emphasizes the extrafollicular pathway as a key contributor to autoimmune progression, and suggests that strategies aimed at blocking GCs should simultaneously target this pathway to avoid rerouting the pathogenic response.Highlights-A genetic GC block fails to prevent autoimmune progression in two lupus models-An intrinsic GC block drives B cell differentiation into terminally differentiated plasma cellsin vitro-B cells harboring a GC block competitively contribute to the plasma cell compartment in an autoreactive settingin vivo-Lupus mice with a GC block display immune complex deposition in kidney glomeruli that is indistinguishable from their wild-type counterpartsSummaryAffinity-matured autoantibodies generated in germinal centers are a hallmark of autoimmune diseases. Voss et al. block germinal centers in two autoimmune models, but surprisingly find that disease progresses unimpeded. They identify the extrafollicular pathway as a ‘backdoor to autoimmunity’.

Published
2022

32. Index

Author

Ralph F. Voss

Published
2011

33. Back Cover

Author

Ralph F. Voss

Published
2011

36. Notes

Author

Ralph F. Voss

Published
2011

37. Cover

Author

Ralph F. Voss

Published
2011

48. Ultrahigh GaN:SiO2etch selectivity byin situsurface modification of SiO2in a Cl2-Ar plasma

Author

Lars F. Voss, Clint D. Frye, Rebecca J. Nikolic, S. E. Harrison, Catherine Reinhardt, and Scott B. Donald

Subjects
In situ, Materials science, plasma etching, Gallium nitride, 02 engineering and technology, 01 natural sciences, chemistry.chemical_compound, wide bandgap, Etching (microfabrication), 0103 physical sciences, lcsh:TA401-492, General Materials Science, 010302 applied physics, Plasma etching, business.industry, fungi, technology, industry, and agriculture, Plasma, 021001 nanoscience & nanotechnology, chemistry, Optoelectronics, Surface modification, lcsh:Materials of engineering and construction. Mechanics of materials, gallium nitride, 0210 nano-technology, business, Selectivity, Realization (systems)
Abstract

The realization of vertical GaN devices requires deep plasma etching and is contingent on high mask selectivity. In this work, we show that SiO2 can be an effective mask material for deep etching GaN with GaN:SiO2 selectivities greater than 40—higher than the conventionally reported 15 for metal hard masks such as nickel. Ultrahigh SiO2 selectivities were achieved by introducing Al and AlCl into the Cl2-Ar inductively coupled plasma, which reacts with the SiO2 mask surface to form an etch-resistant aluminum silicate surface layer. This mechanism provides a low-contamination pathway to etch deep GaN microdevices.

Published
2020

49. α Irradiation Response on the Electronic Transport Properties of p-B12P2

Author

Rebecca J. Nikolic, John W. Murphy, Lars F. Voss, Qinghui Shao, S. E. Harrison, Clint D. Frye, and James H. Edgar

Subjects
010302 applied physics, Physics, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Electronic, Optical and Magnetic Materials, Crystallography, Electrical transport, 0103 physical sciences, Materials Chemistry, α irradiation, Electrical and Electronic Engineering, 0210 nano-technology, Electron bombardment
Abstract

B $$_{12}$$ P $$_{2}$$ , a wide bandgap semiconductor, has been previously reported to self-heal from high-energy electron bombardment as determined from transmission electron microscopy. However, the effect of irradiation on the electronic transport properties of B $$_{12}$$ P $$_{2}$$ has not been studied. We report electrical transport measurements on B $$_{12}$$ P $$_{2}$$ after $$\alpha $$ irradiation. The temperature-dependent Hall effect was measured on p-type B $$_{12}$$ P $$_{2}$$ after successive $$\alpha $$ irradiation from $$^{210}$$ Po over a fluence range of $$1\times \,10^{11}{-}1\times 10^{13}\,\alpha /\hbox {cm}^{2}$$ to test for self-healing of B $$_{12}$$ P $$_{2}$$ to $$\alpha $$ bombardment. Prior to irradiation, B $$_{12}$$ P $$_{2}$$ displayed electrical transport characteristics of both hopping and impurity/defect band conduction due to background impurities and growth-induced defects. Fluences of $$5\times 10^{12}\,\alpha /\hbox {cm}^{2}$$ or greater caused a decrease in the hole mobility and an increase in defect band conduction, suggesting defect accumulation in B $$_{12}$$ P $$_{2}$$ .

Published
2020

50. p-i-n High-Speed Photodiodes for X-Ray and Infrared Imagers Fabricated by In Situ-Doped APCVD Germanium Homoepitaxy

Author

Quinn Looker, Charles E. Hunt, Sergey Mistyuk, Anne Garafalo, Lars F. Voss, Qinghui Shao, Robin C. Scott, Klaus van Benthem, Jean-Paul Stroud, Cassandra E. Durand, Arthur C. Carpenter, and Ankit Kumar

Subjects
010302 applied physics, Materials science, Silicon, Infrared, Doping, Analytical chemistry, chemistry.chemical_element, Germanium, Epitaxy, 01 natural sciences, Electronic, Optical and Magnetic Materials, Photodiode, law.invention, chemistry, law, 0103 physical sciences, Electrical and Electronic Engineering, Dark current, Diode
Abstract

Design, simulation, fabrication, and measurement have been performed using a new method for obtaining high-speed p-i-n germanium photodiodes for use in backside imaging arrays. These devices are proof-of-principal in situ -doped vertical mesa structures fabricated using single-wafer, atmospheric-pressure chemical vapor deposition (APCVD) homoepitaxy on Czochralski-grown Ge substrates. Excellent impurity profiles resulting from in situ doping, as measured by spreading-resistance profilometry, were ${5} \times {10}^{{16}}$ , ${2} \times {10}^{{15}}$ , and ${2} \times {10}^{{18}}$ (cm−3) for the p-type anode, i-region absorber, and n+ cathode, respectively. Scanning electron microscopy analysis revealed very-low defect densities in the epitaxial layers. The diodes, with diameters ranging 100– $500~\mu \text{m}$ , exhibited excellent ideality ( ${n} = {1.15}$ ) and less than 1- $\mu \text{A}$ dark current, corresponding to up to 80 kV-cm−1 electric field in the smallest devices. Avalanche breakdown bias was consistently at a magnitude of 50 V or lower. External quantum efficiencies in the near-infrared spectrum peaked at 70%. Pulsed illumination experiments, both in the infrared and X-ray regions, showed pulse rise times in the 100–140 ps range, indicating excellent applicability of this method to high-speed X-ray or infrared applications.

Published
2020

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