An Open Invitation: VIA as a Field of Research

Vocal-Instrumentral-Ensembles, abbreviated as VIA, were a distinct format of late-soviet popular culture. Music groups carrying this label enjoyed tremendous success from the mid-1960s until the mid-1980s and have since become the object of a nostalgic revival. As a research subject, they offer important insight into cultural politics and the music industry of their time, as well as movements of negotiation, popularisation and canonisation of new sounds, aesthetics and performance techniques. This issue invites scholars to take a more active interest in the VIA’s musical and institutional qualities and offers first explorations into this multifaceted phenomenon

An Architecture Description Language for Mobile Distributed Systems

Mobile software applications have to meet new requirements directly arising from mobility issues. To address these requirements at an early stage in development, an architecture description language (ADL) is proposed, which allows to manage issues like availability requirements, mobile code, security, and replication processes. Aspects of this ADL, Con Moto, are exemplified with a case study from the insurance sector

Architecture Description for Mobile Distributed Systems

In this paper we motivate an Architecture Description Language (ADL) for mobile distributed systems based on the π-calculus. Different from other approaches, the non-functional properties, which are essential when mobile architectures are described, are treated in a flexible manner by inserting logical formulae for expressing and checking non-functional properties into π-calculus processes. A formal example is given to illustrate the approach before the constituents of the ADL are sketched

Two Splits, Three Ways: Advances in Double Splitting Quenches

In this work we introduce a method for calculating holographic duals of BCFTs with more than two boundaries. We apply it to calculating the dynamics of entanglement entropy in a 1+1d CFT that is instantaneously split into multiple segments and calculate the entanglement entropy as a function of time for the case of two splits, showing that our approach reproduces earlier results for the double split case. Our manuscript lays the groundwork for future calculations of the entanglement entropy for more than two splits and systems at nonzero temperature.Comment: 22 pages, 10 figure

Modellierung und Analyse mobiler Architekturen

Das Verhalten eines mobilen Systems wird bestimmt durch seine Architektur (statische und dynamische Anteile, Softwareverteilung), die zu Grunde liegende Netzwerkinfrastruktur (Topologie, Parameter wie Bandbreiten oder Latenzzeiten) und Interaktionen der Benutzer mit dem System. Um bereits zur Entwurfszeit zu bestimmen, ob ein mobiles System nichtfunktionale Anforderungen wie Antwortzeiten oder Verfügbarkeit von Diensten erfüllt, kann eine Simulation des Systems auf Basis eines Architekturmodells unter Einbeziehung eines Netzwerk- und eines Benutzerinteraktionsmodells durchgeführt werden. Ein derartiger Ansatz unter Verwendung der Architekturbeschreibungssprache Con Moto wird in diesem Beitrag vorgestellt

Eigenstate Thermalization in 2+1 dimensional SU(2) Lattice Gauge Theory

We present preliminary numerical evidence for the hypothesis that the Hamiltonian SU(2) gauge theory discretized on a lattice obeys the Eigenstate Thermalization Hypothesis (ETH). To do so we study three approximations: (a) a linear plaquette chain in a reduced Hilbert space limiting the electric field basis to $j=0,\frac{1}{2}$ , (b) a two-dimensional honeycomb lattice with periodic or closed boundary condition and the same Hilbert space constraint, and (c) a chain of only three plaquettes but such a sufficiently large electric field Hilbert space ($j \leq \frac{7}{2})$ that convergence of all energy eigenvalues in the analyzed energy window is observed. While an unconstrained Hilbert space is required to reach the continuum limit of SU(2) gauge theory, numerical resource constraints do not permit us to realize this requirement for all values of the coupling constant and large lattices. In each of the three studied cases we check first for random matrix theory (RMT) behavior in the eigenenergy spectrum and then analyze the diagonal as well as the off-diagonal matrix elements between energy eigenstates for a few operators. Within current uncertainties all results for (a), (b) and (c) agree with ETH predictions. Furthermore, we find the off-diagonal matrix elements of the electric energy operator exhibit RMT behavior in frequency windows that are small enough in (b) and (c). To unambiguously establish ETH behavior and determine for which class of operators it applies, an extension of our investigations is necessary.Comment: 18 pages, 27 figures, v2: minor changes, published versio

From the same hymn sheet

A pilot scheme led by Hannover Re is exploring the standardisation of communication in property placements across Europe. Professor Volker Gruhn, Jürgen Petzold and Clemens Schäfer explain more

Small and Large Satellites: Joint Operations in Earth Observation

While projects for the exploration of space remain ambitious and financially as well as technologically demanding projects, their benefit in understanding our planet is unrivaled [1]. On top of enabling technologies that keep drastically altering the way we communicate, navigate, or build our cities, they currently present the only means of assessing key environmental variables on a global scale [2]–[5]. Today, we witness the New Space era with promises of ever easier, faster, and cheaper space access as a major driving force for the future development to four space capabilities, specifically in Earth Observation (EO), but also in communication (COM) and navigation (NAV) applications. Since from an economic point of view, only now it became possible to achieve resolution and coverage matching the needs of many applications outside the scientific community by means of small satellite constellations[6]–[9]

Human and livestock faecal biomarkers at the prehistorical encampment site of Ullafelsen in the Fotsch Valley, Stubai Alps, Austria – potential and limitations

The Ullafelsen at 1869 m above sea level (a.s.l.) in the Tyrolean Stubai Alps next to Innsbruck is an important (geo)archeological reference site for the Mesolithic period. Buried fireplaces on the Ullafelsen plateau were dated at 10.9 to 9.5 ka cal BP and demonstrate together with thousands of flint stone artifacts the presence of hunter-gatherers during the Early Holocene. Grazing livestock has been a predominant anthropozoological impact in the Fotsch Valley presumably since the Bronze Age (4.2–2.8 ka). In order to study the human and/or livestock faeces input on the Ullafelsen, we carried out steroid analyses on 2 modern ruminant faeces samples from cattle and sheep, 37 soil samples from seven archeological soil profiles, and 9 soil samples from five non-archeological soil profiles from the Fotsch Valley used as reference sites. The dominance of 5β-stigmastanol and deoxycholic acid in modern cattle and sheep faeces can be used as markers for the input of ruminant faeces in soils. The OAh horizons, which have accumulated and developed since the Mesolithic, revealed high contents of steroids (sterols, stanols, stanones and bile acids); the eluvial light layer (E (LL)) horizon coinciding with the Mesolithic living floor is characterized by medium contents of steroids. By contrast, the subsoil horizons Bh, Bs and BvCv contain low contents of faecal biomarkers, indicating that leaching of steroids into the podsolic subsoils is not an important factor. High content of 5β-stigmastanol and deoxycholic acid in all soil samples gives evidence for faeces input of ruminants. The steroid patterns and ratios indicate a negligible input of human faeces on the Ullafelsen. In conclusion, our results reflect a strong faeces input by livestock, rather than by humans as found for other Anthrosols such as Amazonian dark earths. Further studies need to focus on the question of the exact timing of faeces deposition

Low temperature FTIR spectroscopy provides new insights in the pH-dependent proton pathway of proteorhodopsin

AbstractIn the presented study the low pH photocycle of proteorhodopsin is extensively investigated by means of low temperature FTIR spectroscopy. Besides the already well-known characteristics of the all-trans and 13-cis retinal vibrations the 77K difference spectrum at pH 5.1 shows an additional negative signal at 1744cm−1 which is interpreted as indicator for the L state. The subsequent photocycle steps are investigated at temperatures higher than 200K. The combination of visible and FTIR spectroscopy enabled us to observe that the deprotonation of the Schiff base is linked to the protonation of an Asp or Glu side chain — the new proton acceptor under acidic conditions. The difference spectra of the late intermediates are characterized by large amide I changes and two further bands ((−)1751cm−1/(+)1725cm-1) in the spectral region of the Asp/Glu ν(C=O) vibrations. The band position of the negative signature points to a transient deprotonation of Asp-97. In addition, the pH dependence of the acidic photocycle was investigated. The difference spectra at pH 5.5 show distinct differences connected to changes in the protonation state of key residues. Based on our data we propose a three-state model that explains the complex pH dependence of PR