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1. Quantum Teleportation with Telecom Photons from Remote Quantum Emitters

Author

Strobel, Tim, Vyvlecka, Michal, Neureuther, Ilenia, Bauer, Tobias, Schäfer, Marlon, Kazmaier, Stefan, Sharma, Nand Lal, Joos, Raphael, Weber, Jonas H., Nawrath, Cornelius, Nie, Weijie, Bhayani, Ghata, Hopfmann, Caspar, Becher, Christoph, Michler, Peter, and Portalupi, Simone Luca

Subjects
Quantum Physics, Physics - Optics
Abstract

The quest for a global quantum internet is based on the realization of a scalable network which requires quantum hardware with exceptional performance. Among them are quantum light sources providing deterministic, high brightness, high-fidelity entangled photons and quantum memories with coherence times in the millisecond range and above. To operate the network on a global scale, the quantum light source should emit at telecommunication wavelengths with minimum propagation losses. A cornerstone for the operation of such a quantum network is the demonstration of quantum teleportation. Here we realize full-photonic quantum teleportation employing one of the most promising platforms, i.e. semiconductor quantum dots, which can fulfill all the aforementioned requirements. Two remote quantum dots are used, one as a source of entangled photon pairs and the other as a single-photon source. The frequency mismatch between the triggered sources is erased using two polarization-preserving quantum frequency converters, enabling a Bell state measurement at telecommunication wavelengths. A post-selected teleportation fidelity of up to 0.721(33) is achieved, significantly above the classical limit, demonstrating successful quantum teleportation between light generated by distinct sources. These results mark a major advance for the semiconductor platform as a source of quantum light fulfilling a key requirement for a scalable quantum network. This becomes particularly relevant after the seminal breakthrough of addressing a nuclear spin in semiconductor quantum dots demonstrating long coherence times, thus fulfilling another crucial step towards a scalable quantum network.

Published
2024

2. High fidelity distribution of triggered polarization-entangled telecom photons via a 36km intra-city fiber network

Author

Strobel, Tim, Kazmaier, Stefan, Bauer, Tobias, Schäfer, Marlon, Choudhary, Ankita, Sharma, Nand Lal, Joos, Raphael, Nawrath, Cornelius, Weber, Jonas H., Nie, Weijie, Bhayani, Ghata, Wagner, Lukas, Bisquerra, André, Geitz, Marc, Braun, Ralf-Peter, Hopfmann, Caspar, Portalupi, Simone L., Becher, Christoph, and Michler, Peter

Subjects
Quantum Physics, Physics - Optics
Abstract

Fiber-based distribution of triggered, entangled, single-photon pairs is a key requirement for the future development of terrestrial quantum networks. In this context, semiconductor quantum dots (QDs) are promising candidates for deterministic sources of on-demand polarization-entangled photon pairs. So far, the best QD polarization-entangled-pair sources emit in the near-infrared wavelength regime, where the transmission distance in deployed fibers is limited. Here, to be compatible with existing fiber network infrastructures, bi-directional polarization-conserving quantum frequency conversion (QFC) is employed to convert the QD emission from \unit[780]{nm} to telecom wavelengths. We show the preservation of polarization entanglement after QFC (fidelity to Bell state $F_{\phi^+, conv}=0.972\pm0.003$) of the biexciton transition. As a step towards real-world applicability, high entanglement fidelities ($F_{\phi^+, loop}=0.945\pm0.005$) after the propagation of one photon of the entangled pair along a \unit[35.8]{km} field installed standard single mode fiber link are reported. Furthermore, we successfully demonstrate a second polarization-conversing QFC step back to \unit[780]{nm} preserving entanglement ($F_{\phi^+, back}=0.903\pm0.005$). This further prepares the way for interfacing quantum light to various quantum memories.

Published
2024

5. Chemical and mechanical weed control in soybean (Glycine max)

Author

Weber, Jonas Felix, Kunz, Christoph, and Gerhards, Roland

Subjects
harrowing, herbicide, hoeing, soybean, weed control efficacy, Agriculture, Botany, QK1-989
Abstract

In this study we investigated the possibility of chemical and mechanical weed control strategies in soybean. Soybean field experiments were carried out in 2013 and 2014 in Southern Germany. Five treatments including common herbicide mixtures and four mechanical weed control treatments, implementing a harrow and a hoe, were tested at different locations. In the herbicide experiments two treatments were applied by PRE emergence herbicides (metribuzin, clomazone, dimethenamid and metribuzin, flufenacet, clomazone) and another two treatments were sprayed with a combination of PRE + POST emergence herbicides (metribuzin, flufenacet, thifensulfuron and pendimethalin, thifensulfuron, bentazone, cycloxydim). Furthermore, a POST herbicide treatment was implemented (thifensulfuron, bentazone, thifensulfuron and fluazifop-P-butyl). In the mechanical weed control experiments, treatments were: three times hoeing, PRE emergence harrowing plus three times hoeing, hoeing and harrowing in rotation or three times harrowing. In both experiments an untreated control was included. A 90% weed control efficacy and 23% yield increase was observed in the POST herbicide treatment. PRE + POST treatments resulted in 92% to 99% weed control efficiency and 15% yield increase compared to the untreated control. In the mechanical weed control experiments the combination of PRE emergence harrowing and POST emergence hoeing resulted in 82% weed control efficiency and 34% higher yield compared to the untreated control. Less weed control efficiency (72%) was observed in the harrow treatment, leading to 20% higher yield compared to the control. The suitability of both strategies for implementation in “Integrated Weed Management” has been investigated.

Published
2016
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6. Comparison of different mechanical weed control strategies in sugar beets

Author

Kunz, Christoph, Weber, Jonas Felix, and Gerhards, Roland

Subjects
camera steering, inter row weeding, intra row weeding, mechanical weed control, sugar beets, Agriculture, Botany, QK1-989
Abstract

In sugar beet (Beta vulgaris) weed control is commonly performed by herbicide application applied broadcast at splitting during the cultivation period. Mechanical weeding can be an alternative to chemical weed control. The aim of this experiment was the estimation of weed control efficacy with the use of automatic steering technologies by camera guidance, the use of different intra row weed control implements in conservation tillage systems and the influence of these techniques to the number of uprooted sugar beets. A field experiment with a randomized complete plot design was conducted in 2015 at Ihinger Hof, Germany. Weed density ranged from 0 to 12 plants m-2 with Chenopodium album, Polygonum convolvulus, Polygonum aviculare as the most abundant weed species. Hoeing with the use of automatic steering technologies reduced the weed density by 82%. The use of finger weeders, rotary-harrow and torsion finger weeder reduced the weed density by 29% compared to common hoeing strategies. Differences in the number of uprooted sugar beets were not found across all treatments. We revealed the possibility of a more intense use of mechanical weeding technologies in combination with precision farming technologies in sugar beet.

Published
2016
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7. Button Shear Testing for Adhesion Measurements of 2D Materials

Author

Schätz, Josef, Nayi, Navin, Weber, Jonas, Metzke, Christoph, Lukas, Sebastian, Piacentini, Agata, Reato, Eros, Walter, Jürgen, Schaffus, Tim, Streb, Fabian, Grundmann, Annika, Kalisch, Holger, Heuken, Michael, Vescan, Andrei, Pindl, Stephan, and Lemme, Max C.

Subjects
Physics - Applied Physics
Abstract

Two-dimensional (2D) materials are considered for numerous applications in microelectronics, although several challenges remain when integrating them into functional devices. Weak adhesion is one of them, caused by their chemical inertness. Quantifying the adhesion of 2D materials on three-dimensional surfaces is, therefore, an essential step toward reliable 2D device integration. To this end, button shear testing is proposed and demonstrated as a method for evaluating the adhesion of 2D materials with the examples of graphene and hexagonal boron nitride (hBN), molybdenum disulfide, and tungsten diselenide on silicon dioxide (SiO${_2}$) and silicon nitride substrates. We propose a fabrication process flow for polymer buttons on the 2D materials and establish suitable button dimensions and testing shear speeds. We show with our quantitative data that low substrate roughness and oxygen plasma treatments on the substrates before 2D material transfer result in higher shear strengths. Thermal annealing increases the adhesion of hBN on SiO${_2}$ and correlates with the thermal interface resistance between these materials. This establishes button shear testing as a reliable and repeatable method for quantifying adhesion of 2D materials., Comment: 51 pages

Published
2023
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8. Do cover crop mixtures have the same ability to suppress weeds as competitive monoculture cover crops?

Author

Brust, Jochen, Weber, Jonas, and Gerhards, Roland

Subjects
cover crop, mixed cropping, hemp, weed control, weed density, weed suppression, yellow mustard, Agriculture, Botany, QK1-989
Abstract

An increasing number of farmers use cover crop mixtures instead of monoculture cover crops to improve soil and crop quality. However, only little information is available about the weed suppression ability of cover crop mixtures. Therefore, two field experiments were conducted in Baden-Württemberg between 2010 and 2012, to compare growth and weed suppression of monoculture cover crops and cover crop mixtures. In the first experiment, heterogeneous results between yellow mustard and the cover crop mixture occurred. For further research, a field experiment was conducted in 2012 to compare monocultures of yellow mustard and hemp with three cover crop mixtures. The evaluated mixtures were: “MELO”: for soil melioration; “BETA”: includes only plant species with no close relation to main cash crops in Central Europe and “GPS”: for usage as energy substrate in spring. Yellow mustard, MELO, BETA and GPS covered 90% of the soil in less than 42 days and were able to reduce photosynthetically active radiation (PAR) on soil surface by more than 96% after 52 days. Hemp covered 90% of the soil after 47 days and reduced PAR by 91% after 52 days. Eight weeks after planting, only BETA showed similar growth to yellow mustard which produced the highest dry matter. The GPS mixture had comparatively poor growth, while MELO produced similar dry matter to hemp. Yellow mustard, MELO and BETA reduced weed growth by 96% compared with a no cover crop control, while hemp and GPS reduced weeds by 85% and 79%. In spring, weed dry matter was reduced by more than 94% in plots with yellow mustard and all mixtures, while in hemp plots weeds were only reduced by 71%. The results suggest that the tested cover crop mixtures offer similar weed suppression ability until spring as the monoculture of the competitive yellow mustard.

Published
2014
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9. Highly indistinguishable single photons from incoherently and coherently excited GaAs quantum dots

Author

Reindl, Marcus, Weber, Jonas H., Huber, Daniel, Schimpf, Christian, da Silva, Saimon F. Covre, Portalupi, Simone L., Trotta, Rinaldo, Michler, Peter, and Rastelli, Armando

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Semiconductor quantum dots are converging towards the demanding requirements of photonic quantum technologies. Among different systems, quantum dots with dimensions exceeding the free-exciton Bohr radius are appealing because of their high oscillator strengths. While this property has received much attention in the context of cavity quantum electrodynamics, little is known about the degree of indistinguishability of single photons consecutively emitted by such dots and on the proper excitation schemes to achieve high indistinguishability. A prominent example is represented by GaAs quantum dots obtained by local droplet etching, which recently outperformed other systems as triggered sources of entangled photon pairs. On these dots, we compare different single-photon excitation mechanisms, and we find (i) a "phonon bottleneck" and poor indistinguishability for conventional excitation via excited states and (ii) photon indistinguishablilities above 90% for both strictly resonant and for incoherent acoustic- and optical-phonon-assisted excitation. Among the excitation schemes, optical phonon-assisted excitation enables straightforward laser rejection without a compromise on the source brightness together with a high photon indistinguishability.

Published
2019
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10. Algorithmic System Design of Thermofluid Systems

Author

Weber, Jonas Benjamin and Lorenz, Ulf

Subjects
Mathematics - Optimization and Control
Abstract

Technical components are usually well optimized. However, simply combining these optimized components in a technical system does not necessarily lead to optimal systems. Therefore, focusing on a system perspective reveals new potential for optimization. In this context, we examine thermofluid systems which can be interpreted as fluid systems with superimposed heat transfer. The structure of such systems can be abstracted as a graph - more specifically, a flow network. We translate the underlying optimization problem into a mixed-integer linear program which is designed to obey the physical laws of heat transfer. Typically, fluid systems can be considered as quasi-stationary systems since their dynamic effects are usually negligible. However, for thermofluid systems this assumption does not hold because time-dependency is an issue as storage tanks for heated fluid gain importance. In order to handle the dynamic effects induced by the storage tanks, we further introduce a continuous-time representation based on a global event-based formulation., Comment: conference paper

Published
2018
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11. Two-photon interference in the telecom C-band after frequency conversion of photons from remote quantum emitters

Author

Weber, Jonas H., Kambs, Benjamin, Kettler, Jan, Kern, Simon, Maisch, Julian, Vural, Hüseyin, Jetter, Michael, Portalupi, Simone L., Becher, Christoph, and Michler, Peter

Subjects
Quantum Physics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics, Physics - Optics
Abstract

Efficient fiber-based long-distance quantum communication via quantum repeaters relies on deterministic single-photon sources at telecom wavelengths, with the potential to exploit the existing world-wide infrastructures. For upscaling the experimental complexity in quantum networking, two-photon interference (TPI) of remote non-classical emitters in the low-loss telecom bands is of utmost importance. With respect to TPI of distinct emitters, several experiments have been conducted, e.g., using trapped atoms [Beugnon2006], ions [Maunz2007], NV-centers [Bernien2012, Sipahigil2012], SiV-centers [Sipahigil2014], organic molecules [Lettow2010] and semiconductor quantum dots (QDs) [Patel2010, Flagg2010, He2013b, Gold2014, Giesz2015, Thoma2017, Reindl2017, Zopf2017]; however, the spectral range was far from the highly desirable telecom C-band. Here, we report on TPI at 1550 nm between down-converted single photons from remote QDs [Michler2017Book], demonstrating quantum frequency conversion [Zaske2012, Ates2012, Kambs2016] as precise and stable mechanism to erase the frequency difference between independent emitters. On resonance, a TPI-visibility of (29+-3)% has been observed, being only limited by spectral diffusion processes of the individual QDs [Robinson2000, Kuhlmann2015]. Up to 2-km of additional fiber channel has been introduced in both or individual signal paths with no influence on TPI-visibility, proving negligible photon wave-packet distortion. The present experiment is conducted within a local fiber network covering several rooms between two floors of the building. Our studies pave the way to establish long-distance entanglement distribution between remote solid-state emitters including interfaces with various quantum hybrid systems [DeGreve2012,Maring2017,Bock2017,Maring2018]., Comment: J. H. Weber and B. Kambs contributed equally to this work

Published
2018
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12. Overcoming correlation fluctuations in two-photon interference experiments with differently bright and independently blinking remote quantum emitters

Author

Weber, Jonas H., Kettler, Jan, Vural, Hüseyin, Müller, Markus, Maisch, Julian, Jetter, Michael, Portalupi, Simone L., and Michler, Peter

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

As a fundamental building block for quantum computation and communication protocols, the correct verification of the two-photon interference (TPI) contrast between two independent quantum light sources is of utmost importance. Here, we experimentally demonstrate how frequently present blinking dynamics and changes in emitter brightness critically affect the Hong-Ou-Mandel-type (HOM) correlation histograms of remote TPI experiments measured via the commonly utilized setup configuration. We further exploit this qualitative and quantitative explanation of the observed correlation dynamics to establish an alternative interferometer configuration, which is overcoming the discussed temporal fluctuations, giving rise to an error-free determination of the remote TPI visibility. We prove full knowledge of the obtained correlation by reproducing the measured correlation statistics via Monte-Carlo simulations. As exemplary system, we make use of two pairs of remote semiconductor quantum dots, however, the same conclusions apply for TPI experiments with flying qubits from any kind of remote solid state quantum emitters.

Published
2018
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13. Idiomatic and Reproducible Software Builds using Containers for Reliable Computing

Author

Weber, Jonas

Subjects
Computer Science - Software Engineering
Abstract

Containers as the unit of application delivery are the 'next big thing' in the software development world. They enable developers to create an executable image containing an application bundled with all its dependencies which a user can run inside a controlled environment with virtualized resources. Complex workflows for business-critical applications and research environments require a high degree of reproducibility which can be accomplished using uniquely identified images as units of computation. It will be shown in this thesis that the most widely used approaches to create an image from pre-existing software or from source code lack the ability to provide idiomaticity in their use of the technology as well as proper reproducibility safe-guards. In the first part, existing approaches are formalized and discussed and a new approach is introduced. The approaches are then evaluated using a suite of three different examples. This thesis provides a framework for formalizing operations involving a layered file system, containers and images, and a novel approach to the creation of images using utility containers and layer donning fulfilling the idiomaticity and reproducibility criteria., Comment: 77 pages, Master's Thesis

Published
2017

18. Keep it Simple: Ceramic Kelvin Cells via Liquid Crystal Display‐Stereolithography Printing.

Author

Simon, Swantje, Hoffmann, Patrizia, Stötzel, Tim, Weber, Jonas, and Fey, Tobias

Subjects
LIQUID crystals, COMPRESSIVE strength, PHOTOPOLYMERIZATION, STEREOLITHOGRAPHY, CELL anatomy
Abstract

Additive manufacturing is the state‐of‐the‐art method for producing complex ceramic parts. For cellular materials, the freedom of design is particularly advantageous, as pore networks and shapes can be tailored. Herein, the direct printing of complex parts with high porosity using the cost‐effective manufacturing method of Liquid Crystal Display‐based stereolithography on low‐cost printers is determined. It is investigated how the architecture of the alumina Kelvin cells topology, their fabrication process, the printing parameters, and the microstructure affect the accuracy and mechanical properties of the printed samples. A notable reduction to a strut thickness of Kelvin cells down to 0.20 mm is achieved corresponding to a reduction of 1.5 compared with the state‐of‐the‐art literature (min. 0.35 mm). Ultrahigh porosities between 89.5% and 97.2% and a maximum compressive strength of 1.84 ± 0.17 MPa are reached due to the dense struts of the structure. Low‐cost and simple vat ceramic photopolymerization with high accuracy printing proves to be a promising candidate for the rapid and cost‐effective fabrication of highly porous and complex ceramic structures. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Algorithmic System Design of Thermofluid Systems

Author

Weber, Jonas B., Lorenz, Ulf, Rodrigues, H.C., editor, Herskovits, J., editor, Mota Soares, C.M., editor, Araújo, A.L., editor, Guedes, J.M., editor, Folgado, J.O., editor, Moleiro, F., editor, and Madeira, J. F. A., editor

Published
2019
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22. Self‐Assembly of Janus Graphene Oxide via Chemical Breakdown for Scalable High‐Performance Memristors.

Author

Hui, Fei, Zhang, Conghui, Yu, Huanhuan, Han, Tingting, Weber, Jonas, Shen, Yaqing, Xiao, Yiping, Li, Xiaohong, Zhang, Zhijun, and Liu, Peisong

Subjects
CHEMICAL decomposition, GRAPHENE oxide, MEMRISTORS, STRAY currents, OPTOELECTRONIC devices
Abstract

Janus 2D materials have drawn substantial attention recently owing to its extraordinary interface properties and promising applications in optoelectronic devices. However, the scalable fabrication of high‐quality Janus 2D materials is still one of the main obstacles to hinder its implementation in the industry. Herein, a new method (called "chemical breakdown") is developed to obtain large‐area uniform Janus graphene oxide (J‐GO) films with high‐quality. Moreover, the first application of J‐GO in the field of memristive devices is presented for neuromorphic computing. In particular, crossbar arrays of Ag/J‐GO/Au memristive devices that exhibit threshold resistive switching (RS) with enhanced performance are fabricated, e.g., low leakage current (≈10−12 A), low operation voltage (≈0.3 V), high endurance (>12,000 cycles), and electro‐synaptic plasticity. This work provides a novel strategy to obtain large‐area, continuous and uniform Janus 2D films, and proposes a new application for Janus 2D materials in a hot topic (i.e., neuromorphic computing) within the field of solid‐state microelectronics. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Current-Limited Conductive Atomic Force Microscopy

Author

Weber, Jonas, primary, Yuan, Yue, additional, Pazos, Sebastian, additional, Kühnel, Fabian, additional, Metzke, Christoph, additional, Schätz, Josef, additional, Frammelsberger, Werner, additional, Benstetter, Günther, additional, and Lanza, Mario, additional

Published
2023
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24. Switzerland

Author

Pruin, Ineke, Aebersold, Peter, Weber, Jonas, Decker, Scott H, editor, and Marteache, Nerea, editor

Published
2017
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36. Entwicklung eines ELISAs zur spezifischen Detektion von S100A12 Hexamer

Author

Weber, Jonas and Weber, Jonas

Abstract

S100A12 ist ein Entzündungsmarker, der inflammatorische Prozesse präzise anzeigt. Entzündungsprozesse mit erhöhten S100A12 Konzentrationen spielen vor allem bei Autoimmunerkrankungen wie der der rheumatischen Arthritis (RA), autoinflammatorischen Erkrankungen wie der juvenilen idiopathische Arthritis (JIA) oder weiteren Erkrankungen wie dem familiären Mittelmeerfieber (FMF) eine wichtige Rolle. Das S100A12 Protein besitzt drei verschiedene Konformationen: das Dimer, das Tetramer und das Hexamer. In verschiedenen Studien konnte gezeigt werde, dass das Hexamer an proinflammatorische Rezeptoren wie dem Toll-like Rezeptor-4 (TLR-4) und dem „receptor for the advanced glycation end products“ (RAGE) bindet und so die Produktion von weiteren Entzündungsmediatoren stimuliert. Daher besitzt die S100A12 Hexamerkonformation eine entscheidende Rolle in Entzündungsprozessen. Das Ziel bestand somit in der Selektion von Peptiden oder „single chain variable fragment“ (scFv)-Konstrukten, die exklusiv an die hexamere Konformation von S100A12 binden. Mittels Biopanning von Peptid- und scFv-Phagen Bibliotheken konnten Peptide und scFvs selektiert werden. Die selektierten Peptide und die selektierten scFvs wurden in ELISAs weiter auf ihre Bindungseigenschaften charakterisiert. Durch Umklonierung in einen Fc-Konstrukt Vektor konnten die scFvs als vollständige scFv-Fc-Konstrukte exprimiert werden. Die Bindung der selektierten Peptide bestätigte sich als Biotin-Fusion im anschließenden ELISA. Es zeigte sich eine sehr hohe Bindungsspezifität der Peptide und der produzierten scFv-Fc-Konstrukte an das S100A12 Hexamer. Mit den selektierten Liganden ist es gelungen einen Test zu entwickeln: an Streptavidin immobilisierte Peptide binden spezifisch das S100A12 Hexamer aus dem Testmedium und mittels selektiertem scFv-Fc-Konstrukten lassen sich die gebundenen S100A12 Proteine detektieren. Ein Detektionsantikörper ermöglichte die Visualisierung der gebundenen scFv-Fc-Konstrukte mittels Farbreaktion.

Published
2023

38. Introduction

Author

Dünkel, Frieder, primary, Pruin, Ineke, additional, Storgaard, Anette, additional, and Weber, Jonas, additional

Published
2018
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45. Lack of L-type amino acid transporter 2 in murine thyroid tissue induces autophagy

Author

Venugopalan, Vaishnavi, primary, Rehders, Maren, additional, Weber, Jonas, additional, Rodermund, Lisa, additional, Al-Hashimi, Alaa, additional, Bargmann, Tonia, additional, Golchert, Janine, additional, Reinecke, Vivien, additional, Homuth, Georg, additional, Völker, Uwe, additional, Verrey, Francois, additional, Kirstein, Janine, additional, Heuer, Heike, additional, Schweizer, Ulrich, additional, Braun, Doreen, additional, Wirth, Eva K, additional, and Brix, Klaudia, additional

Published
2023
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49. Switzerland

Author

Wegel, Melanie and Weber, Jonas

Subjects
Strafvollzug, Social distancing, Schweiz, 365: Justizvollzugsanstalten, Covid-19
Abstract

The Impact of COVID-19 on Prison Conditions and Penal Policy presents the results of a worldwide exchange of information on the impact of COVID-19 in prisons, as well as focusing on the human rights relating to the treatment of prisoners in institutions for both juveniles and adults worldwide.

Published
2022

50. Netflix und Spotify als Blaupause? Ein Vergleich abonnementbasierter Journalismusplattformen mit Spotify und Netflix

Author

Gundlach, Hardy, Deutsche Gesellschaft für Publizistik- und Kommunikationswissenschaft e.V., Weber, Jonas, Buschow, Christopher, Will, Andreas, Gundlach, Hardy, Deutsche Gesellschaft für Publizistik- und Kommunikationswissenschaft e.V., Weber, Jonas, Buschow, Christopher, and Will, Andreas

Abstract

Medienplattformen kommt eine wachsende Bedeutung bei der Distribution von Inhalten zu. Bisher liegen jedoch kaum Studien vor, die die Eigenschaften von Plattformen unterschiedlicher Sektoren der Medienbranche (Bewegtbild, Musik, Journalismus usw.) miteinander vergleichen. Die vorliegende Studie untersucht sieben auf dem deutschen Markt aktive Journalismusplattformen anhand unterschiedlicher Dimensionen und setzt sie in Relation zu Netflix und Spotify. Dafür wurde eine qualitative Analyse der Angebote vorgenommen, um zu überprüfen, inwiefern Spotify und Netflix eine Referenzfunktion für Journalismusplattformen haben. Die Studie kommt zu dem Ergebnis, dass Netflix und Spotify in Bezug auf Preis und Interface eine Vorbildrolle für Journalismusplattformen einnehmen, diese jedoch ihr Bundle von Inhalten nach anderen Prinzipien generieren und zusammenstellen., Media platforms hold an increasingly important position in the distribution of media content. However, there is lack of comparative studies on media platforms in different segments of the media industry (video, music, journalism etc.). In light of this research gap, this study investigates seven journalism platforms on the German market and compares their characteristics with Netflix and Spotify. A qualitative analysis of these services was conducted to examine the extent to which Spotify and Netflix are drawn upon as a reference for journalism platforms. Findings show that Netflix and Spotify are role models for journalism platforms in terms of price and interface, but that there are major differences in the bundling of content.

Published
2022

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