@inbook{60034,
abstract = {{A preference for music theatre works is characteristic of Hans Werner Henze's oeuvre, as is his close collaboration with famous 20th-century authors, who wrote the libretti for his music theatre works. This paper explores the artistic collaborations of Hans Werner Henze and Ingeborg Bachmann on the one hand and Henze, Chester Kallman and W.H. Auden on the other in the context of their joint operatic work, surviving correspondence and poetological essays. This is set against the backdrop of how personal relationships can influence collaboration in the performing arts. In both cases, the letters and biographical writings of the aforementioned working groups, read from a gender perspective and with regard to creativity, forms of relationship and artistic collaboration, point to a tension between potential and desired personal relationships, the confrontation with marriage as a conventional social framework and artistic collaboration as a long-term connection.}},
author = {{Tumat, Antje}},
booktitle = {{(Wahl-)Verwandtschaften.Gemeinschaftliches kulturelles Handeln}},
editor = {{Bagge, Maren and Fornoff-Petrowski, CHristine and Ricke, Anna and Rode-Breymann, Susanne}},
pages = {{209--224}},
publisher = {{Böhlau}},
title = {{{Künstlerische Zusammenarbeit zwischen Ehekonvention und Sublimation. Hans Werner Henzes Bühnenschaffen mit Ingeborg Bachmann, W.H. Auden und Chester Kallman}}},
volume = {{21}},
year = {{2025}},
}
@inbook{56142,
author = {{Schulze-Uludasdemir, Johanna and Niemann, Jan}},
booktitle = {{Data - Culture - Society. Komplexe Transformationen verstehen und gestalten}},
editor = {{Uppenkamp, V. and Vösgen-Nordloh, M.}},
isbn = {{978-3-534-64166-6}},
pages = {{127--154}},
publisher = {{Verlag wbg}},
title = {{{„Wir [haben] uns da auf eine Form eingegroovt…“ – Gestaltung einer Community of Practice zur Begegnung digitaler Transformationsprozesse in der Lehrkräftebildung. In Interdisziplinäre Studien des Paderborner Graduiertenzentrums für Kulturwissenschaften (Band 2)}}},
year = {{2025}},
}
@misc{60112,
author = {{Huybrechts, Yves}},
booktitle = {{BMGN — Low Countries Historical Review}},
title = {{{Theodor Baums: Luxemburg und das Reichskammergericht: Die Lösung des Herzogtums aus dem Heiligen Römischen Reich und ihre Folgen für die Gerichtszuständigkeit bei grenzüberschreitenden Konflikten (Quellen und Forschungen zur Höchsten Gerichtsbarkeit im Alten Reich 81), (Böhlau: Wien-Köln 2024, 143).}}},
volume = {{140}},
year = {{2025}},
}
@inbook{60190,
author = {{Cyrkel, Jakob}},
booktitle = {{Data - Culture - Society. Kulturwissenschaftliche Perspektiven auf Data Society als gesellschaftliche Transformation}},
editor = {{Uppenkamp, Vera and Vösgen-Nordloh, Meike}},
pages = {{179--200}},
publisher = {{wbg Academic}},
title = {{{Perspektiven auf Mikropolitiken der Psychotherapie mit Virtual Reality – oder: „From Training to Toy to Treatment”}}},
doi = {{10.17619/UNIPB/1-2411}},
volume = {{2}},
year = {{2025}},
}
@book{55644,
abstract = {{Wie klingt ein nonbinäres Subjekt? Band 17 des Jahrbuchs Musik und Gender entwickelt neue Perspektiven für die musikwissenschaftliche Genderforschung, indem er sie um posthumanistische Ansätze erweitert. Die Denkfigur der Nonbinarität bricht dabei nicht nur Geschlechtergrenzen auf, sondern auch die Grenzen zwischen Mensch und Nichtmensch, Natur und Technik.
Die Autor:innen aus Wissenschaft und Kunst schaffen mit ihren Beiträgen ein komplexes Beziehungsnetzwerk, das neue Hörweisen ermöglicht, alte und neue Verbindungen schafft: Sonic Fiction trifft auf Trauerarbeit um verlorene Stimmen; frühe Gendertheorie auf Öko- und Queerfeminismus. Ein vielstimmiger Band, der – wichtiger denn je – neue Formen des Zuhörens erschließt.}},
editor = {{Bartsch, Cornelia and Schürmer, Anna and Spieker, Jonas}},
issn = {{978-3-487-17174-6}},
keywords = {{posthumanism, feminist theory, nonbinary, sound studies, musicology}},
pages = {{200}},
publisher = {{Georg Olms Verlag}},
title = {{{Non*binär! Sound und Gender im Posthumanismus}}},
doi = {{https://doi.org/10.5771/9783487171746}},
volume = {{17}},
year = {{2025}},
}
@inbook{63729,
author = {{Skuratova, Angelina}},
booktitle = {{Data – Culture – Society. Kulturwissenschaftliche Perspektiven auf Data Society als gesellschaftliche Transformation}},
editor = {{Uppenkamp, Vera and Vösgen-Nordloh, Meike}},
publisher = {{wbg Academic}},
title = {{{“Extinction Is an Opportunity.” – The Transformative Potential of Post-Apocalyptic Video Game Spaces}}},
year = {{2025}},
}
@inbook{61424,
author = {{Herzig, Bardo}},
booktitle = {{SLLD (B). Spachlich literatisches Lernen und Deutschdidaktik }},
editor = {{Berg, Gunhild and Franke, Bernhard}},
issn = {{2701-0600}},
pages = {{43--61}},
publisher = {{OMP / RUB}},
title = {{{Soziale Medien als algorithmische Diskursmaschinen}}},
doi = {{10.46586/SLLD.429}},
volume = {{19}},
year = {{2025}},
}
@inproceedings{63786,
author = {{Löhnert, Bianca and Augsten, Nikolaus and Okulmus, Cem and Ortiz, Magdalena}},
booktitle = {{Proceedings of the 38th International Workshop on Description Logics (DL 2025), Opole, Poland, September 3-6, 2025.}},
editor = {{Tendera, Lidia and Ibanez Garcia, Yazmin and Koopmann, Patrick}},
title = {{{Query Rewriting for Nested Navigational Queries over Property Graphs}}},
volume = {{4091}},
year = {{2025}},
}
@inbook{62684,
author = {{Kunkel, Sönke and Sackel, Johanna}},
booktitle = {{Räume in der Internationalen Geschichte}},
editor = {{Kunkel, Sönke and Homberg, Michael and Sackel, Johanna and Deuerlein, Martin and Klein, Jonas }},
isbn = {{9783119145688}},
publisher = {{De Gruyter}},
title = {{{Ressourcenräume: Seerecht, Geopolitik und Wissenschaftsdiplomatie zwischen den Seychellen, Frankreich und der Bundesrepublik Deutschland um 1980}}},
doi = {{10.1515/9783112213278-010}},
year = {{2025}},
}
@article{63862,
author = {{Leineweber, Jonas}},
issn = {{0556-8218}},
journal = {{Rheinisch-Westfälische Zeitschrift für Volkskunde}},
number = {{1}},
pages = {{189--204}},
publisher = {{Waxmann}},
title = {{{Forschungs- und Spannungsfeld Immaterielles Kulturerbe. Erfahrungen und Erkenntnisse im Forschungsprojekt „Tradition im Wandel – Schützenwesen in Westfalen“ (2016–2024)}}},
doi = {{10.31244/rwz/2025/13}},
volume = {{70}},
year = {{2025}},
}
@article{60277,
author = {{Leineweber, Jonas and Maren, Schulze and Aiko, Möhwald}},
issn = {{0342-2402}},
journal = {{sportunterricht}},
number = {{5}},
pages = {{213--219}},
publisher = {{hofmann}},
title = {{{Moderner Tanz und Immaterielles Kulturerbe im Schulsport. Ein Praxisbeispiel zur Tanzimprovisation im Kontext des UNESCO-Übereinkommens}}},
volume = {{74}},
year = {{2025}},
}
@inbook{55646,
abstract = {{Was bedeutet es, „für“ Robben, Wale oder bedrohte marine Ökosysteme zu sprechen? Diese Frage steht im Zentrum aktueller Debatten um die Rechte der Natur – und sie stellt zugleich eine besondere Herausforderung für die ästhetische Praxis im Anthropozän dar.
Der Aufsatz untersucht, welchen spezifischen Beitrag Environmental Sound Art zu gegenwärtigen umweltpolitischen Debatten leisten kann, und nutzt dafür feministische und postkoloniale Theorieansätze als analytisches Werkzeug. Im Zentrum steht dabei die Frage nach der Repräsentationsdynamik zwischen Komponist*in und nichtmenschlichen Subjekten sowie das daraus resultierende Problem der Anwaltschaft. Am Beispiel von Jana Winderens Soundscape-Komposition "Spring Bloom in the Marginal Ice Zone" (2017) diskutiert der Aufsatz die Rolle der Komponistin als Anwältin für ein Ökosystem und dessen Bewohner*innen sowie die Grenzen und Möglichkeiten ästhetischer Positionen, nichtmenschlichen Entitäten ›eine Stimme zu verleihen‹. Der Text unterzieht dabei Gayatri Chakravorty Spivaks Überlegungen zur Repräsentation Subalterner einer Relektüre unter posthumanistischen Vorzeichen und entwickelt daraus abschließend das Konzept des ›subversiven Zuhörens‹, eine kritische Hörpraxis, die anthropozentrische Wahrnehmungsmuster hinterfragt und dem nachspürt, was durch sie unhörbar gemacht wird.
}},
author = {{Spieker, Jonas}},
booktitle = {{Non*binär! Sound und Gender im Posthumanismus}},
editor = {{Bartsch, Cornelia and Schürmer, Anna and Spieker, Jonas}},
issn = {{978-3-487-17174-6}},
keywords = {{Environmental Sound Art, Ecological Sound Art, Blue Humanities, Posthumanism, Critical Posthumanism, Environmental Humanities, Soundscape Studies, Ecocriticism, Listening (Music), Ecomusicology, Sound Art, Environmental sounds, Advocacy and Activism, Gayatri Spivak}},
pages = {{113–126}},
publisher = {{Georg Olms Verlag}},
title = {{{Klagende Robben. Environmental Sound Art und das Problem der Anwaltschaft}}},
doi = {{https://doi.org/10.5771/9783487171746-113}},
volume = {{17}},
year = {{2025}},
}
@inbook{55645,
abstract = {{
Die Einleitung zu Non*binär! Sound und Gender im Posthumanismus situiert den Band am Schnittpunkt von musikwissenschaftlicher Genderforschung und posthumanistischer Theoriebildung. Ausgehend von der Kritik binärer Oppositionen – Mann/Frau, Natur/Kultur, Mensch/Maschine – wird Non*binarität als verbindendes Konzept zwischen feministischen und posthumanistischen Diskursen entwickelt. Die Autor*innen skizzieren, wie klangkünstlerische und musikalische Praktiken neue Subjektivitäten jenseits anthropozentrischer Logiken erproben und dabei genuine Erkenntnisse über mehr-als-menschliche Beziehungsgeflechte hervorbringen. Sie stellen die Beiträge des Bandes in thematischen Clustern vor – von transtemporalen Perspektiven über mehr-als-menschliche Subalterne bis zu stimmlichen Grenzgängen – und verstehen den Band selbst als rhizomatischen „Garten" feministisch-posthumanistischer Wissensproduktion.}},
author = {{Spieker, Jonas and Bartsch, Cornelia and Schürmer, Anna}},
booktitle = {{Non*binär! Sound und Gender im Posthumanismus}},
editor = {{Bartsch, Cornelia and Schürmer, Anna and Spieker, Jonas}},
keywords = {{posthumanism, feminist theory, nonbinary, sound studies, musicology}},
pages = {{11–17}},
publisher = {{Georg Olms Verlag}},
title = {{{Non*binäre Verflechtungen: Feministische Klangspaziergänge im Garten posthumanistischer Theoriebildung}}},
doi = {{https://doi.org/10.5771/9783487171746-11}},
volume = {{17}},
year = {{2025}},
}
@techreport{63597,
author = {{Hartung, Olaf}},
keywords = {{Museum, Ausstellung, Geschichte, Friedrich Wilhelm Weber}},
pages = {{350}},
publisher = {{Eigendruck}},
title = {{{Ein neues Webermuseum. Ideen und Konzepte für die Neugestaltung des Friedrich-Wilhelm-Weber-Museums in Bad Driburg-Alhausen}}},
year = {{2025}},
}
@article{64086,
abstract = {{Abstract
This study aimed to develop and evaluate deep learning approaches for the classification of quantum emission signals from WS
2
monolayer nanobubbles across multiple spectral bands, addressing challenges in quantum materials characterization and spectral distinguishability assessment. We utilized a dataset of quantum emission signals ranging from 604 to 629 nm, emitted from WS₂ monolayer nanobubbles on gold substrates, categorized into four spectral bands (604.06–608.24 nm, 611.07–616.34 nm, 617.42–623.35 nm, and 624.16–636.57 nm). Our methodology involved signal preprocessing through normalization and moving average smoothing, followed by transformation into 128 × 128 RGB images using Continuous Wavelet Transform (CWT) with Complex Morlet wavelet. Three convolutional neural network architectures (ResNet50, VGG16, and Xception) were implemented and evaluated using fivefold cross-validation across six possible band pair combinations. All models demonstrated exceptional classification performance, with VGG16 achieving the highest overall mean accuracy of 99.4%, followed by Xception (99.1%) and ResNet50 (98.2%). Perfect classification accuracy (100%) was consistently achieved for spectrally distant band pairs, particularly Band 1 versus Band 4 (20.5 nm separation), while the most challenging classification involved adjacent bands (Band 2 vs. Band 3, 6.27 nm separation) with VGG16 achieving 96.5% accuracy. Statistical analysis using Friedman tests confirmed significant performance differences among models (χ
2
= 8.67,
p
= 0.013). Xception demonstrated remarkable computational efficiency, achieving optimal convergence in as few as 2 epochs for certain band combinations while maintaining ultralow training loss values (8.23 × 10⁻
6
). Deep learning models, particularly when combined with CWT preprocessing, provide a robust framework for quantum emission signal classification with significant implications for quantum photonics, quantum cryptography, and quantum sensing applications. Our approach bridges the gap between classical machine learning and quantum materials characterization, establishing quantifiable metrics for evaluating spectral distinguishability in quantum information systems. The demonstrated ability to achieve high classification accuracy with minimal training through transfer learning addresses data scarcity challenges inherent to quantum systems, offering a promising direction for future quantum technology development.
}},
author = {{Najafzadeh, Hossein and Raissi, Zahra and Golmohammady, Shole and Kaji, Parivash Safari and Esmaeili, Mahdad}},
issn = {{2045-2322}},
journal = {{Scientific Reports}},
number = {{1}},
publisher = {{Springer Science and Business Media LLC}},
title = {{{Deep learning for classifying quantum emission signals in WS2 monolayers using wavelet transform}}},
doi = {{10.1038/s41598-025-29120-0}},
volume = {{15}},
year = {{2025}},
}
@book{64099,
editor = {{Scheideler, Christian and Meeks, Kitty}},
title = {{{4th Symposium on Algorithmic Foundations of Dynamic Networks.}}},
year = {{2025}},
}
@inbook{48274,
author = {{Foerster, Anne}},
booktitle = {{Emotionen im Krieg - Krieg der Emotionen}},
editor = {{Quaas, Franziska and Raum, Theresia}},
pages = {{139--158}},
publisher = {{Franz Steiner Verlag}},
title = {{{Freudig in die Schlacht - Emotionen als Codes für die recta intentio im gerechten Krieg (8.- 10. Jahrhundert)}}},
year = {{2025}},
}
@article{64009,
abstract = {{The understanding of the interactions between cellulose and ionic liquids are the foundation for the development of new processes, to explore new reactions and to establish a circular bioeconomy. The main problem is that direct measurement, from both quantitative and qualitative point of view is challenging. While there are methods to assess solution strength and wettability of ionic liquids with cellulose materials, the main challenge lies in the combination of a solid substrate and an applied liquid, limiting the number of accessible methods. We demonstrate in this paper that an in-situ solid-state NMR spectroscopical approach is capable of monitoring in real-time the mobility of ionic liquids in cellulose-based substrates. Specifically, we employ 1H → 13C cross polarization magic angle spinning (CP MAS) NMR spectroscopy to examine mobility changes over varying exposure times in paper samples treated with ionic liquids. Through this approach, we capture the temporal evolution of IL signals, which in turn provide insights into mobility changes of ILs and also allow for identifying changes in cellulose crystallinity. The approach allows for a simple, semiquantitative assessment of cellulose solubility in ionic liquids and is in principle applicable to other biomass materials as well.}},
author = {{Lins, Jonas and Pachernegg-Mair, Lukas and Höfler, Mark V. and Hajialilou, Solmaz and Spirk, Stefan and Gutmann, Torsten}},
issn = {{0969-0239}},
journal = {{Cellulose}},
number = {{18}},
pages = {{10439–10453}},
title = {{{Time resolved mobility changes of ionic liquids in cellulose by in-situ solid state NMR spectroscopy}}},
doi = {{10.1007/s10570-025-06848-6}},
volume = {{32}},
year = {{2025}},
}
@article{63981,
abstract = {{The thermal behavior of n-octanol and related ether alcohols has been studied by differential scanning calorimetry (DSC). The melting point, heat of fusion, and isobaric heat capacities of n-octanol obtained from the DSC measurements are in good agreement with literature values. The ether alcohols display kinetic barriers for forming a solid phase during cooldown. These barriers are least for 6-methoxyhexanol that forms a solid upon cooling except for the highest measured temperature change rate of 40 K·min–1, followed by 4-propoxybutanol that forms a solid during cooldown only at low cooling rates. 2-Pentoxyethanol and 5-ethoxypentanol form a solid during the heating cycle that then melts again upon further heating. 3-Butoxypropanol does not display any exo- and endothermic features for all measured temperature change rates. Consequently, new data on melting point and heats of fusion are reported for the ether alcohols except for 3-butoxypropanol. New isobaric heat capacities are presented as well for the liquid phase of these ether alcohols. The thermal behavior of n-octanol and related ether alcohols has been studied by differential scanning calorimetry (DSC). The melting point, heat of fusion, and isobaric heat capacities of n-octanol obtained from the DSC measurements are in good agreement with literature values. The ether alcohols display kinetic barriers for forming a solid phase during cooldown. These barriers are least for 6-methoxyhexanol that forms a solid upon cooling except for the highest measured temperature change rate of 40 K·min–1, followed by 4-propoxybutanol that forms a solid during cooldown only at low cooling rates. 2-Pentoxyethanol and 5-ethoxypentanol form a solid during the heating cycle that then melts again upon further heating. 3-Butoxypropanol does not display any exo- and endothermic features for all measured temperature change rates. Consequently, new data on melting point and heats of fusion are reported for the ether alcohols except for 3-butoxypropanol. New isobaric heat capacities are presented as well for the liquid phase of these ether alcohols.}},
author = {{Hoffmann, Markus M. and Gutmann, Torsten and Buntkowsky, Gerd}},
issn = {{0021-9568}},
journal = {{Journal of Chemical & Engineering Data}},
number = {{1}},
pages = {{600–606}},
publisher = {{American Chemical Society}},
title = {{{Thermal Behavior of n-Octanol and Related Ether Alcohols}}},
doi = {{10.1021/acs.jced.4c00525}},
volume = {{70}},
year = {{2025}},
}
@article{63830,
abstract = {{ This study investigates the effect of dispersion gas (DG) flow on the formation and properties of maghemite (γ-Fe2O3) nanoparticles using standardized SpraySyn burners (SS1 and SS2). Several diagnostics were employed to characterize the spray and nanoparticles.
Increasing DG flow (6 - 12 slm) results in smaller droplet sizes (DS), cooler flame temperatures, shorter high-temperature droplet/particle residence times, and smaller agglomerates in the size range of 5 - 12 nm with narrower primary particle size distribution, corresponding to higher mass fractal dimensions, as supported by TEM and SMPS analysis, resulting in more compact agglomerates. BET and TEM confirmed decreasing primary particle sizes with increasing DG flow. Raman and XRD analyses predominantly identified maghemite, which shows a bimodal distribution of crystallite sizes, while SS1 samples have a greater proportion of larger crystallites.
The self-preserving size distributions of agglomerates with a geometric standard deviation of 1.5 are reached faster with increasing DG flow. The barrier effect of DG observed in SS1 leads to slower droplet combustion kinetics, higher temperatures, and delayed precursor release, which, along with downstream flow recirculation, result in significantly higher agglomeration rates outside the visible flame. SS2 demonstrates improved atomization, more stable flames, and finer, uniform nanoparticles with less carbonaceous residues (CR). Conversely, SS1 showed broader DS distributions and higher CR levels on the γ-Fe2O3 surface, especially at higher DG flow.
This work highlights the essential role of DG flow and nozzle geometry in controlling droplet evaporation, flame stability, and nanoparticle growth, offering insights for optimizing SFS and validating numerical models.
}},
author = {{Massopo, Orlando and Tischendorf, Ricardo and Gonchikzhapov, Munko and Kasper, Tina and Augustin, Peter and Özer, Burak and Reddemann, Manuel and Kneer, Reinhold and Sheikh, Mohammed-Ali and Mert, Aydan Akyildiz and Wiggers, Hartmut and Schmid, Hans-Joachim}},
issn = {{0032-5910}},
journal = {{Powder Technology}},
keywords = {{Spray flame synthesis, iron oxide nanoparticle, SpraySyn burner, Dispersion gas, Coaxial atomization, HiaT-SMPS}},
publisher = {{Elsevier BV}},
title = {{{Influence of dispersion gas flow on the spray characteristics and γ-Fe2O3 nanoparticles formation and properties in reference SpraySyn burners}}},
doi = {{10.1016/j.powtec.2025.121992}},
volume = {{470}},
year = {{2025}},
}