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1. On the critical competition between singlet exciton decay and free charge generation in non-fullerene-based organic solar cells with low energetic offsets

Author

Pranav, M., Shukla, A., Moser, D., Rumeney, J., Liu, W., Wang, R., Sun, B., Smeets, S., Tokmoldin, N., Jaiser, F., Hultzsch, T., Shoaee, S., Maes, W., Lüer, L., Brabec, C., Vandewal, K., Andrienko, D., Ludwigs, S., and Neher, D.

Subjects
Condensed Matter - Materials Science
Abstract

In this era of non-fullerene acceptor (NFA) based organic solar cells, reducing voltage losses while maintaining high photocurrents is the holy grail of current research. Recent focus lies in understanding the manifold fundamental mechanisms in organic blends with minimal energy offsets - particularly the relationship between ionization energy offset ({\Delta}IE) and free charge generation. We quantitatively probe this relationship in multiple NFA-based blends by mixing Y5 and Y6 NFAs with PM6 of varying molecular weights, covering a 15% to 1% power conversion efficiency (PCE) range and a progression of {\Delta}IE. Spectroelectrochemistry reveals a critical {\Delta}IE of approximately 0.3 eV, below which the PCE sharply declines. Transient absorption spectroscopy consistently reveals that a smaller {\Delta}IE slows the dissociation of the NFA's local singlet exciton (LE) into free charges, albeit restorable by an electric field. Bias-dependent time delayed collection experiments quantify the free charge generation efficiency, while photoluminescence quantum efficiency measurements assess photocurrent loss from LE decay. Combined with transient photoluminescence experiments, we find that the decay of singlet excitons is the primary competition to free charge generation in low-offset NFA-based organic solar cells, with neither noticeable losses from charge-transfer (CT) decay nor evidence for LE-CT hybridization. Our experimental data align with Marcus theory calculations, supported by density functional theory simulations, for zero-field free charge generation and exciton decay efficiencies. We find that efficient photocurrent generation generally requires that the CT state is located below the LE, but that this restriction is lifted in systems with a small reorganization energy for charge transfer.

Published
2024
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2. Observations of the new meteor shower from comet 46P/Wirtanen

Author

Vida, D., Scott, J. M., Egal, A., Vaubaillon, J., Ye, Q. -Z., Rollinson, D., Sato, M., and Moser, D. E.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

A new meteor shower $\lambda$-Sculptorids produced by the comet 46P/Wirtanen was forecast for December 12, 2023. The predicted activity was highly uncertain, but generally considered to be low. Observations in Australia, New Zealand, and Oceania were solicited to help constrain the size distribution of meteoroids in the shower. This work aims to characterize the new meteor shower, by comparing the observed and predicted radiants and orbits, and to provide a calibration for future predictions. Global Meteor Network video cameras were used to observe the meteor shower. Multi-station observations were used to compute trajectories and orbits, while single-station observations were used to measure the flux profile. A total of 23 $\lambda$-Sculptorid orbits have been measured. The shower peaked at a zenithal hourly rate (ZHR) of $0.65^{+0.24}_{-0.20}$ meteors per hour at $\lambda_{\odot} = 259.988^{\circ} \pm 0.042^{\circ}$. Due to the low in-atmosphere speed of 15~km s$^{-1}$, the mean mass of observed meteoroids was 0.5~g ($\sim10$~mm diameter), an order of magnitude higher than predicted. The dynamical simulations of the meteoroid stream can only produce such large meteoroids arriving at Earth in 2023 with correct radiants when a very low meteoroid density of $\sim 100$~kg~m$^{-3}$ is assumed. However, this assumption cannot reproduce the activity profile. It may be reproduced by considering higher density meteoroids in a larger ecliptic plane-crossing time window ($\Delta T$ = 20 days) and trails ejected prior to 1908, but then the observed radiant structure is not reproduced., Comment: Accepted for publication in A&A

Published
2024

3. The Golden Meteorite Fall: Fireball Trajectory, Orbit and Meteorite Characterization

Author

Brown, P. G., McCausland, P. J. A., Hildebrand, A. R, Hanton, L. T. J., Eckart, L. M., Busemann, H., Krietsch, D., Maden, C., Welten, K., Caffee, M. W., Laubenstein, M., Vida, D., Ciceri, F., Silber, E., Herd, C. D. K., Hill, P., Devillepoix, H., Sansom, Eleanor K., Cupák, Martin, Anderson, Seamus, Flemming, R. L., Nelson, A. J., Mazur, M., Moser, D. E., Cooke, W. J., Hladiuk, D., Malečić, Barbara, Prtenjak, Maja Telišman, and Nowell, R.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Physics - Geophysics
Abstract

The Golden (British Columbia, Canada) meteorite fall occurred on Oct 4, 2021 at 0534 UT with the first recovered fragment (1.3 kg) landing on an occupied bed. The meteorite is an unbrecciated, low-shock (S2) ordinary chondrite of intermediate composition, typed as an L/LL5. From noble gas measurements the cosmic ray exposure age is 25 Ma while gas retention ages are all >2 Ga. Short-lived radionuclides and noble gas measurements of the pre-atmospheric size overlap with estimates from infrasound and lightcurve modelling producing a preferred pre-atmospheric mass of 70-200 kg. The orbit of Golden has a high inclination (23.5 degs) and is consistent with delivery from the inner main belt. The highest probability (60%) of an origin is from the Hungaria group. We propose that Golden may originate among the background S-type asteroids found interspersed in the Hungaria region. The current collection of 18 L and LL chondrite orbits shows a strong preference for origins in the inner main belt, suggesting multiple parent bodies may be required to explain the diversity in CRE ages and shock states., Comment: 92 Pages, 20 Tables, 21 Figures, plus 3 appendices, accepted in Meteoritics and Planetary Science Oct 26 2023

Published
2023

5. Measuring the cross section of the $^{15}$N($\alpha$,$\gamma$)$^{19}$F reaction using a single-fluid bubble chamber

Author

Neto, D., Bailey, K., Benesch, J. F., Cade, B., DiGiovine, B., Freyberger, A., Grames, J. M., Hofler, A., Holt, R. J., Kazimi, R., Meekins, D., McCaughan, M., Moser, D., O'Connor, T., Poelker, M., Rehm, K. E., Riordan, S., Suleiman, R., Talwar, R., and Ugalde, C.

Subjects
Nuclear Experiment
Abstract

$^{15}$N($\alpha$,$\gamma$)$^{19}$F is believed to be the primary means of stellar nucleosynthesis of fluorine. Here we present the use of a single-fluid bubble chamber to measure the cross section of the time-inverse photo-dissociation reaction. The method benefits from a luminosity increase of several orders of magnitude due to the use of a thicker liquid target -- when compared to thin films or gas targets -- and from the reciprocity theorem. We discuss the results of an experiment at the Thomas Jefferson National Accelerator Facility, where the cross section of the photodisintegration process $^{19}$F($\gamma$, $\alpha$)$^{15}$N was measured by bombarding a superheated fluid of C$_3$F$_8$ with bremsstrahlung $\gamma$-rays produced by impinging a 4 - 5.5 MeV electron beam on a Cu radiator. From the photodissociation yield the cross section was extracted by performing a convolution with a Monte Carlo-generated $\gamma$-ray beam spectrum. The measurement produced a cross section that was then time inverted using the reciprocity theorem. The cross section for the $^{15}$N($\alpha$,$\gamma$)$^{19}$F reaction was determined down to a value in the range of hundreds of picobarns. With further improvements of the experimental setup the technique could potentially push cross section measurements down to the single picobarn range., Comment: Corrected Typos. Accepted for Publication in Physical Review C

Published
2023
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7. The Hamburg Meteorite Fall: Fireball trajectory, orbit and dynamics

Author

Brown, P. G., Vida, D., Moser, D. E., Granvik, M., Koshak, W. J., Chu, D., Steckloff, J., Licata, A., Hariri, S., Mason, J., Mazur, M., Cooke, W., and Krzeminski, Z.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The Hamburg (H4) meteorite fell on January 17, 2018 at 01:08 UT approximately 10km North of Ann Arbor, Michigan. More than two dozen fragments totaling under one kilogram were recovered, primarily from frozen lake surfaces. The fireball initial velocity was 15.83 $\pm$ 0.05 km/s, based on four independent records showing the fireball above 50 km altitude. The radiant had a zenith angle of 66.1 $\pm$ 0.29 degs and an azimuth of 121.56 $\pm$ 1.2 degs. The resulting low inclination ($<$ 1 deg) Apollo-type orbit has a large aphelion distance and Tisserand value relative to Jupiter (Tj) of $\sim$ 3. Two major flares dominant the energy deposition profile, centred at 24.1 and 21.7 km altitude respectively under dynamic pressures of 5-7 MPa. Our preferred total energy for the Hamburg fireball is 2 to 7 T TNT (8.4 to 28 x 10$^9$ J), which corresponds to a likely initial mass in the range of 60 to 225 kg or diameter between 0.3 to 0.5 m. Based on the model of Granvik et al (2018), the meteorite originated in an escape route from the mid-outer asteroid belt. Hamburg is the 14th known H-chondrite with an instrumentally-derived pre-atmospheric orbit, half of which have small ($<$5 deg) inclinations making connection with (6) Hebe problematic. A definitive parent body consistent with all 14 known H-chondrite orbits remains elusive, Comment: 85 pages, 4 tables, 15 figures, 1 appendix. Accepted to Meteoritics and Planetary Science, June 19, 2019

Published
2019
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8. Meteor Shower Modeling: Past and Future Draconid Outbursts

Author

Egal, A., Wiegert, P., Brown, P. G., Moser, D. E., Campbell-Brown, M., Moorhead, A., Ehlert, S., and Moticska, N.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

This work presents numerical simulations of meteoroid streams released by comet 21P/Giacobini-Zinner over the period 1850-2030. The initial methodology, based on Vaubaillon et al. (2005), has been updated and modified to account for the evolution of the comet's dust production along its orbit. The peak time, intensity, and duration of the shower were assessed using simulated activity profiles that are calibrated to match observations of historic Draconid outbursts. The characteristics of all the main apparitions of the shower are reproduced, with a peak time accuracy of half an hour and an intensity estimate correct to within a factor of 2 (visual showers) or 3 (radio outbursts). Our model also revealed the existence of a previously unreported strong radio outburst on October 9 1999, that has since been confirmed by archival radar measurements. The first results of the model, presented in Egal et al. (2018), provided one of the best predictions of the recent 2018 outburst. Three future radio outbursts are predicted in the next decade, in 2019, 2025 and 2029. The strongest activity is expected in 2025 when the Earth encounters the young 2012 trail. Because of the dynamical uncertainties associated with comet 21P's orbital evolution between the 1959 and 1965 apparitions, observations of the 2019 radio outburst would be particularly helpful to improve the confidence of subsequent forecasts., Comment: Icarus - Accepted

Published
2019
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12. Production of highly-polarized positrons using polarized electrons at MeV energies

Author

Abbott, D., Adderley, P., Adeyemi, A., Aguilera, P., Ali, M., Areti, H., Baylac, M., Benesch, J., Bosson, G., Cade, B., Camsonne, A., Cardman, L. S., Clark, J., Cole, P., Covert, S., Cuevas, C., Dadoun, O., Dale, D., Dong, H., Dumas, J., Fanchini, E., Forest, T., Forman, E., Freyberger, A., Froidefond, E., Golge, S., Grames, J., Guèye, P., Hansknecht, J., Harrell, P., Hoskins, J., Hyde, C., Josey, B., Kazimi, R., Kim, Y., Machie, D., Mahoney, K., Mammei, R., Marton, M., McCarter, J., McCaughan, M., McHugh, M., McNulty, D., Mesick, K. E., Michaelides, T., Michaels, R., Moffit, B., Moser, D., Camacho, C. Muñoz, Muraz, J. -F., Opper, A., Poelker, M., Réal, J. -S., Richardson, L., Setiniyaz, S., Stutzman, M., Suleiman, R., Tennant, C., Tsai, C., Turner, D., Ungaro, M., Variola, A., Voutier, E., Wang, Y., and Zhang, Y.

Subjects
Physics - Accelerator Physics, High Energy Physics - Experiment, Nuclear Experiment
Abstract

The Polarized Electrons for Polarized Positrons experiment at the injector of the Continuous Electron Beam Accelerator Facility has demonstrated for the first time the efficient transfer of polarization from electrons to positrons produced by the polarized bremsstrahlung radiation induced by a polarized electron beam in a high-$Z$ target. Positron polarization up to 82\% have been measured for an initial electron beam momentum of 8.19~MeV/$c$, limited only by the electron beam polarization. This technique extends polarized positron capabilities from GeV to MeV electron beams, and opens access to polarized positron beam physics to a wide community., Comment: 5 pages, 4 figures

Published
2016
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13. Multiscale phonon blocking in Si phononic crystal nanostructures

Author

Nomura, M., Kage, Y., Nakagawa, J., Hori, T., Shiomi, J. Maire J., Moser, D., and Paul, O.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

In-plane thermal conduction and phonon transport in both single-crystalline and polycrystalline Si two-dimensional phononic crystal (PnC) nanostructures were investigated at room temperature. The impact of phononic patterning on thermal conductivity was larger in polycrystalline Si PnCs than in single-crystalline Si PnCs. The difference in the impact is attributed to the difference in the thermal phonon mean free path (MFP) distribution induced by grain boundary scattering in the two materials. Grain size analysis and numerical simulation using the Monte Carlo technique indicate that grain boundaries and phononic patterning are efficient phonon scattering mechanisms for different MFP length scales. This multiscale phonon blocking structure covers a large part of the broad distribution of thermal phonon MFPs and thus efficiently reduces thermal conduction., Comment: 5 pages, 6 fgures, Journal paper

Published
2015

14. Igneous intrusion origin for the petrofabric of Erg Chech 002.

Author

Beros, C., Tait, K. T., Di Cecco, V. E., and Moser, D. E.

Subjects
ACHONDRITES, STRAIN rate, SOLAR system, HIGH temperatures, HYPERVELOCITY, IGNEOUS intrusions, CARBONACEOUS aerosols, PLAGIOCLASE
Abstract

Achondrites provide an opportunity to examine the igneous processes of differentiated bodies in our solar system. The recent discovery of several silica‐rich achondrites suggests that andesitic crusts were more common among planetesimals than previously thought, though the processes behind their emplacement are not well understood. Here, electron backscatter diffraction (EBSD) is used to investigate the igneous emplacement conditions of Erg Chech 002 (EC 002), a recently discovered ungrouped achondrite representing andesitic magmatism ~2 Myr after the formation of calcium–aluminum‐rich inclusions (CAIs). EBSD analyses of crystallographic preferred orientations (CPOs) for augite and plagioclase feldspar phenocrysts indicate that EC 002 exhibits a weak foliation CPO. Augite misorientation inverse pole figures (mIPF) indicate preferential slip along the (100)[001] system with a distinct shift toward the {0kl}[u0w] system in plastically deformed grains. Our findings support the hypothesis that EC 002 was likely emplaced in the lower regions of a magmatic intrusion. Augite slip signatures suggest that EC 002 crystallization and emplacement were restricted to high temperatures (>800°C) and experienced at least two strain regimes. The distinct shift from a dominant (100)[001] slip system, which corresponds to high temperatures (800–1050°C), to a [0kl][u0w] slip system indicates an increased strain rate due to shock deformation (1–5 GPa) attributed to ejection by hypervelocity impact. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Exactly soluble model of resonant energy transfer between molecules

Author

King, C., Barbiellini, B., Moser, D., and Renugopalakrishnan, V.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

F\"orster's theory of resonant energy transfer (FRET) predicts the strength and range of exciton transport between separated molecules. We introduce an exactly soluble model for FRET which reproduces F\"orster's results as well as incorporating quantum coherence effects. As an application the model is used to analyze a system composed of quantum dots and the protein bacteriorhodopsin., Comment: 10 pages, 2 figures

Published
2011
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18. Report of the workshop for life detection in samples from Mars

Author

Kminek, G, Conley, C, Allen, CC, Bartlett, DH, Beaty, DW, Benning, LG, Bhartia, R, Boston, PJ, Duchaine, C, Farmer, JD, Flynn, GJ, Glavin, DP, Gorby, Y, Hallsworth, JE, Mogul, R, Moser, D, Buford Price, P, Pukall, R, Fernandez-Remolar, D, Smith, CL, Stedman, K, Steele, A, Stepanauskas, R, Sun, H, Vago, JL, Voytek, MA, Weiss, PS, and Westall, F

Abstract

The question of whether there is or was life on Mars has been one of the most pivotal since Schiaparellis' telescopic observations of the red planet. With the advent of the space age, this question can be addressed directly by exploring the surface of Mars and by bringing samples to Earth for analysis. The latter, however, is not free of problems. Life can be found virtually everywhere on Earth. Hence the potential for contaminating the Mars samples and compromising their scientific integrity is not negligible. Conversely, if life is present in samples from Mars, this may represent a potential source of extraterrestrial biological contamination for Earth. A range of measures and policies, collectively termed 'planetary protection', are employed to minimise risks and thereby prevent undesirable consequences for the terrestrial biosphere. This report documents discussions and conclusions from a workshop held in 2012, which followed a public conference focused on current capabilities for performing life-detection studies on Mars samples. The workshop focused on the evaluation of Mars samples that would maximise scientific productivity and inform decision making in the context of planetary protection. Workshop participants developed a strong consensus that the same measurements could be employed to effectively inform both science and planetary protection, when applied in the context of two competing hypotheses: 1) that there is no detectable life in the samples; or 2) that there is martian life in the samples. Participants then outlined a sequence for sample processing and defined analytical methods that would test these hypotheses. They also identified critical developments to enable the analysis of samples from Mars. © 2014 The Committee on Space Research (COSPAR).

Published
2014

22. The next frontier for planetary and human exploration

Author

Stamenković, V., Beegle, L. W., Zacny, K., Arumugam, D. D., Baglioni, P., Barba, N., Baross, J., Bell, M. S., Bhartia, R., Blank, J. G., Boston, P. J., Breuer, D., Brinckerhoff, W., Burgin, M. S., Cooper, I., Cormarkovic, V., Davila, A., Davis, R. M., Edwards, C., Etiope, G., Fischer, W. W., Glavin, D. P., Grimm, R. E., Inagaki, F., Kirschvink, J. L., Kobayashi, A., Komarek, T., Malaska, M., Michalski, J., Ménez, B., Mischna, M., Moser, D., Mustard, J., Onstott, T. C., Orphan, V. J., Osburn, M. R., Plaut, J., Plesa, A.-C., Putzig, N., Rogers, K. L., Rothschild, L., Russell, M., Sapers, H., Lollar, B. Sherwood, Spohn, T., Tarnas, J. D., Tuite, M., Viola, D., Ward, L. M., Wilcox, B., and Woolley, R.

Published
2019
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29. Performance and Degradation in Silicon PV Systems Under Outdoor Conditions in Relation to Reliability Aspects of Silicon PV Modules – Summary of Results of COST Action PEARL PV

Author

Lindig, S., primary, Ascencio-Vásquez, J., additional, Leloux, J., additional, Moser, D., additional, Aghaei, M., additional, Fairbrother, A., additional, Gok, A., additional, Ahmad, S., additional, Kazim, S., additional, Lobato, K., additional, Van Sark, W.J.G.H.M., additional, Pearsall, N., additional, Burduhos, B.G., additional, Raghoebarsing, A., additional, Oreski, G., additional, Schmitz, J., additional, Theelen, M., additional, Yilmaz, P., additional, Kettle, J., additional, and Reinders, A.H.M.E., additional

Published
2023
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30. Performance and Degradation in Silicon PV Systems Under Outdoor Conditions in Relation to Reliability Aspects of Silicon PV Modules – Summary of Results of COST Action PEARL PV: 2023 IEEE 50th Photovoltaic Specialists Conference (PVSC)

Author

Lindig, S., Ascencio-Vásquez, J., Leloux, J., Moser, D., Aghaei, M., Fairbrother, A., Gok, A., Ahmad, S., Kazim, S., Lobato, K., Sark, W. J. G. H. M. Van, Pearsall, N., Burduhos, B. G., Raghoebarsing, A., Oreski, G., Schmitz, J., Theelen, M., Yilmaz, P., Kettle, J., Reinders, A. H. M. E., Lindig, S., Ascencio-Vásquez, J., Leloux, J., Moser, D., Aghaei, M., Fairbrother, A., Gok, A., Ahmad, S., Kazim, S., Lobato, K., Sark, W. J. G. H. M. Van, Pearsall, N., Burduhos, B. G., Raghoebarsing, A., Oreski, G., Schmitz, J., Theelen, M., Yilmaz, P., Kettle, J., and Reinders, A. H. M. E.

Abstract

This paper presents the main results of COST Action PEARL PV, aiming at finding connections between the observed performance of monitored PV systems and degradation causes and failure modes according to literature with a focus on the most dominant technology among installed PV modules, namely silicon PV. It is found that there there exists a great potential for performance improvements, though in practice it is difficult to identify exact causes for failure and underperformance.

Published
2023

31. Firm power generation

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Perez, R., Perez, M., Remund, J., Rabago, K., Pierro, M., Prina, M.G., Moser, D., Comaro, C., Schlemmer, J., Dise, J., Hoff, T.E., Swierc, A., Kellin, P., Boland, J., Tapaches, E., David, M., Lauret, P., van Eldik, R., van Sark, Wilfried, Lopez-Lorente, J., Makrides, G., Georghiou, G.E., Integration of Photovoltaic Solar Energy, Energy and Resources, Perez, R., Perez, M., Remund, J., Rabago, K., Pierro, M., Prina, M.G., Moser, D., Comaro, C., Schlemmer, J., Dise, J., Hoff, T.E., Swierc, A., Kellin, P., Boland, J., Tapaches, E., David, M., Lauret, P., van Eldik, R., van Sark, Wilfried, Lopez-Lorente, J., Makrides, G., and Georghiou, G.E.

Published
2023

32. Human appropriation of net primary production as driver of change in landscape‐scale vertebrate richness

Author

Reiter, K., Plutzar, C., Moser, D., Semenchuk, P., Erb, K.‐H., Essl, F., Gattringer, A., Haberl, H., Krausmann, F., Lenzner, B., Wessely, J., Matej, S., Pouteau, R., Dullinger, S., Reiter, K., Plutzar, C., Moser, D., Semenchuk, P., Erb, K.‐H., Essl, F., Gattringer, A., Haberl, H., Krausmann, F., Lenzner, B., Wessely, J., Matej, S., Pouteau, R., and Dullinger, S.

Abstract

Aim: Land use is the most pervasive driver of biodiversity loss. Predicting its impact on species richness (SR) is often based on indicators of habitat loss. However, the degradation of habitats, especially through land-use intensification, also affects species. Here, we evaluate whether an integrative metric of land-use intensity, the human appropriation of net primary production, is correlated with the decline of SR in used landscapes across the globe. Location: Global. Time period: Present. Major taxa studied: Birds, mammals and amphibians. Methods: Based on species range maps (spatial resolution: 20 km × 20 km) and an area-of-habitat approach, we calibrated a “species–energy model” by correlating the SR of three groups of vertebrates with net primary production and biogeographical covariables in “wilderness” areas (i.e., those where available energy is assumed to be still at pristine levels). We used this model to project the difference between pristine SR and the SR corresponding to the energy remaining in used landscapes (i.e., SR loss expected owing to human energy extraction outside wilderness areas). We validated the projected species loss by comparison with the realized and impending loss reconstructed from habitat conversion and documented by national Red Lists. Results: Species–energy models largely explained landscape-scale variation of mapped SR in wilderness areas (adjusted R2-values: 0.79–0.93). Model-based projections of SR loss were lower, on average, than reconstructed and documented ones, but the spatial patterns were correlated significantly, with stronger correlation in mammals (Pearson's r = 0.68) than in amphibians (r = 0.60) and birds (r = 0.57). Main conclusions: Our results suggest that the human appropriation of net primary production is a useful indicator of heterotrophic species loss in used landscapes, hence we recommend its inclusion in models based on species–area relationships to improve predictions of land-use-driven biodiversity l

Published
2023
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33. Performance and Degradation in Silicon PV Systems Under Outdoor Conditions in Relation to Reliability Aspects of Silicon PV Modules – Summary of Results of COST Action PEARL PV: 2023 IEEE 50th Photovoltaic Specialists Conference (PVSC)

Author

Integration of Photovoltaic Solar Energy, Energy and Resources, Lindig, S., Ascencio-Vásquez, J., Leloux, J., Moser, D., Aghaei, M., Fairbrother, A., Gok, A., Ahmad, S., Kazim, S., Lobato, K., Sark, W. J. G. H. M. Van, Pearsall, N., Burduhos, B. G., Raghoebarsing, A., Oreski, G., Schmitz, J., Theelen, M., Yilmaz, P., Kettle, J., Reinders, A. H. M. E., Integration of Photovoltaic Solar Energy, Energy and Resources, Lindig, S., Ascencio-Vásquez, J., Leloux, J., Moser, D., Aghaei, M., Fairbrother, A., Gok, A., Ahmad, S., Kazim, S., Lobato, K., Sark, W. J. G. H. M. Van, Pearsall, N., Burduhos, B. G., Raghoebarsing, A., Oreski, G., Schmitz, J., Theelen, M., Yilmaz, P., Kettle, J., and Reinders, A. H. M. E.

Published
2023

34. Threatened European butterflies concentrate in areas of strong climatic change and atmospheric deposition pressure

Author

Rashid, S., Wessely, J., Moser, D., Rumpf, S.B., Kühn, Ingolf, Fiedler, K., Hülber, K., Dullinger, S., Rashid, S., Wessely, J., Moser, D., Rumpf, S.B., Kühn, Ingolf, Fiedler, K., Hülber, K., and Dullinger, S.

Abstract

Land use change, as a result of many local-scale decisions scaling up to large spatial extents, is considered the main threat to European butterflies. The impact of large-scale pressures, such as atmospheric nitrogen deposition or climate change, is less understood or less documented, respectively. However, it is acknowledged that they might reinforce the pressure on already threatened species. To evaluate the additional threat exerted by these pressures we compared their geographical pattern to those of threatened butterflies across Europe. We therefore derived range maps of 383 butterfly species and used two species-specific threat assessments derived from national and European Red Lists. We then used Spearman rank-correlations and beta-regressions to compare two metrics of species threat per 10 × 10 km raster cells with geographical patterns of cumulative nitrogen depositions from 1980 to 2015, as well as the magnitude of change in precipitation sums and temperature means between the decades 1979–1988 and 2004–2013. We found that threatened species tend to concentrate in areas with high nitrogen depositions and pronounced summer temperature changes. In particular, parts of central and eastern Europe were both hotspots of threatened butterflies and hotspots of climatic pressure. This spatial coincidence of the distribution of threatened butterfly species with large-scale patterns of nitrogen depositions and recent climate warming indicates an already considerable risk of regional to continental extinctions that will likely increase further in the future as climate change will most likely intensify. Consequences for area-based conservation measures are discussed. &nbsp

Published
2023

35. Association of Symptoms and Mode of Transportation to Emergency Department in Patients With Acute Coronary Syndrome

Author

Davis, L, McCoy, T, Riegel, B, McKinley, S, Doering, L, Moser, D, Davis, L, McCoy, T, Riegel, B, McKinley, S, Doering, L, and Moser, D

Abstract

BackgroundPatients with acute coronary syndrome (ACS) with symptoms matching their expectations of a heart attack are more likely to use emergency medical services (EMS) than not.ObjectiveTo determine whether presenting symptom clusters are associated with EMS use in ACS patients and if EMS use or symptom clusters are associated with prehospital delay.MethodsThis secondary analysis used data from the PROMOTION trial, a randomized clinical trial that enrolled 3522 subjects with a history of or at risk for ACS from 5 sites in the United States, Australia, and New Zealand. Subjects were randomized to usual care or an educational intervention to reduce prehospital delay. During the 2-year follow-up, subjects admitted for ACS were asked about symptoms, time of symptom onset, and mode of transportation to the hospital. Symptoms were grouped into classic ACS, pain symptoms, and stress symptoms clusters.ResultsOf 3522 subjects enrolled, 331 sought care for ACS during follow-up; 278 had transportation mode documented; 121 (44%) arrived via EMS. Classic ACS plus pain symptoms (adjusted odds ratio [AOR], 2.66; P = .011), classic ACS plus stress symptoms (AOR, 2.61; P = .007), and classic ACS plus both pain and stress symptoms (AOR, 3.90; P = .012) were associated with higher odds of EMS use versus classic ACS symptoms alone. Emergency medical services use resulted in a 68.5-minute shorter median delay (P = .002) versus non-EMS use. Symptom clusters were not predictive of delay time in the adjusted model (P = .952).DiscussionAlthough chest symptoms were the most prevalent symptoms for most (85%), the combination of classic ACS symptoms with other symptom clusters was associated with higher EMS use. Further research is needed to determine whether a combination of symptom clusters helps patients correctly interpret ACS symptoms to better understand how symptom clusters influence EMS use.

Published
2023

39. Measuring the cross section of the N15(α,γ)19F reaction using a single-fluid bubble chamber

Author

Neto, D., primary, Bailey, K., additional, Benesch, J. F., additional, Cade, B., additional, DiGiovine, B., additional, Freyberger, A., additional, Grames, J. M., additional, Hofler, A., additional, Holt, R. J., additional, Kazimi, R., additional, Meekins, D., additional, McCaughan, M., additional, Moser, D., additional, O'Connor, T., additional, Poelker, M., additional, Rehm, K. E., additional, Riordan, S., additional, Suleiman, R., additional, Talwar, R., additional, and Ugalde, C., additional

Published
2023
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40. A global perspective on bacterial diversity in the terrestrial deep subsurface

Author

Soares, A., primary, Edwards, A., additional, An, D., additional, Bagnoud, A., additional, Bradley, J., additional, Barnhart, E., additional, Bomberg, M., additional, Budwill, K., additional, Caffrey, S. M., additional, Fields, M., additional, Gralnick, J., additional, Kadnikov, V., additional, Momper, L., additional, Osburn, M., additional, Mu, A., additional, Moreau, J. W., additional, Moser, D., additional, Purkamo, L., additional, Rassner, S. M., additional, Sheik, C. S., additional, Sherwood Lollar, B., additional, Toner, B. M., additional, Voordouw, G., additional, Wouters, K., additional, and Mitchell, A. C., additional

Published
2023
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42. Measuring the cross section of the ¹⁵N(α,γ)¹⁹F reaction using a single-fluid bubble chamber

Author

Neto, D., Bailey, K., Benesch, J. F., Cade, B., DiGiovine, B., Freyberger, A., Grames, J. M., Hofler, A., Holt, R. J., Kazimi, R., Meekins, D., McCaughan, M., Moser, D., O'Connor, T., Poelker, M., Rehm, K. E., Riordan, S., Suleiman, R., Talwar, R., and Ugalde, C.

Abstract

¹⁵N(α,γ)¹⁹F is believed to be the primary means of stellar nucleosynthesis of fluorine. Here, we present the use of a single-fluid bubble chamber to measure the cross section of the time-inverse photodissociation reaction. The method benefits from a luminosity increase of several orders of magnitude due to the use of a thicker liquid target—when compared to thin films or gas targets—and from the reciprocity theorem. We discuss the results of an experiment at the Thomas Jefferson National Accelerator Facility, where the cross section of the photodisintegration process ¹⁹F(γ,α)¹⁵N was measured by bombarding a superheated fluid of C₃F₈ with bremsstrahlung γ rays produced by impinging a 4–5.5 MeV electron beam on a Cu radiator. From the photodissociation yield the cross section was extracted by performing a convolution with a Monte Carlo–generated γ-ray beam spectrum. The measurement produced a cross section that was then time inverted using the reciprocity theorem. The cross section for the ¹⁵N(α,γ)¹⁹F reaction was determined down to a value in the range of hundreds of picobarns. With further improvements of the experimental setup the technique could potentially push cross section measurements down to the single picobarn range.

Published
2023

43. A Meteoroid Handbook for Aerospace Engineers and Managers

Author

Moorhead, A, Cooke, B, Blaauw, R, Moser, D, and Ehlert, S

Subjects
Engineering (General)
Abstract

At the beginning of the Space Age, spacecraft designers and mission planners were very concerned about meteoroids. They envisioned vehicles being ripped to pieces by streams of fast-moving space rocks, a notion promoted by the science fiction novels and movies of the time. The reality is, of course, different—the meteoroid streams that produce meteor showers are not dense by laypeople’s standards, having spatial densities of just a handful of particles per cubic kilometer, even during meteor outbursts. The ever-present, diffuse, sporadic background, which produces observed meteor rates of only 5 to 8 meteors per hour, makes up 90% of the meteoroid risk to spacecraft that spend at least a year in low Earth orbit (LEO), whereas the visually spectacular but short-lived meteor showers make up the other 10%. Still, meteoroids do pose a significant risk to spacecraft. At Earth, they can travel 12 to 72 km/s. These high speeds cause even small meteoroids to carry enormous kinetic energy, making them capable of doing serious damage to spacecraft. For example, a 1-mm-diameter meteoroid moving at 25 km/s can inflict the same damage as a bullet fired from a 0.357 Magnum pistol. An exterior wire can be severed by a 0.1-mm (100 mm) particle, a spacesuit can be penetrated by a 0.5-mm meteoroid, and an unshielded pressure wall (like the cabin of the Space Shuttle) can be perforated by centimeter-sized particles. Along with mechanical damage, meteoroids can also cause other types of spacecraft anomalies. Meteoroids can transfer their momentum to the spacecraft, which can destroy or damage equipment such as shunt resistors and charge-coupled device (CCD) detectors with a clear view of space. Meteoroid impacts can also generate plasma. The impact vaporizes material, producing a crater and an expanding plasma, which can in turn provide a conductive path for any charge accumulated on the spacecraft. This effect is thought to be responsible for the demise of a satellite in one case: the OLYMPUS communications satellite was sent tumbling out of control during the 1993 Perseid outburst, and a Perseid meteoroid strike has been posited as a possible cause (McDonnell et al. 1993; Caswell et al. 1995). Other researchers have suggested that very fast meteoroids could produce a small electromagnetic pulse capable of disrupting spacecraft function (Close et al. 2010).

Published
2019

48. Building integrated photovoltaic/thermal technologies in Middle Eastern and North African countries: Current trends and future perspectives

Author

Sohani, A, Cornaro, C, Shahverdian, Mh, Pierro, M, Moser, D, Nižetić, S, Karimi, N, Larry K. B., L, and Doranehgard, Mh

Subjects
Photovoltaics, Middle East, Renewable Energy, Sustainability and the Environment, Settore ING-IND/11, Climate change, Building integrated photovoltaic/thermal systems, Carbon neutrality, North Africa
Published
2023
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50. Fatigue Testing of Polyimide-Based Micro Implants

Author

Kisban, Sebastian, Moser, D., Rubehn, B., Stieglitz, T., Paul, O., Ruther, P., Magjarevic, R., editor, Nagel, J. H., editor, Vander Sloten, Jos, editor, Verdonck, Pascal, editor, Nyssen, Marc, editor, and Haueisen, Jens, editor

Published
2009
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