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The present paper proposes canonical Dirac framework adapted for application to the electronic processes in solid state. The concern is a spatially periodic structure of atoms distinguished by birth and annihilation of particle states excited due to interaction with the electromagnetic field. This implies replacing the conventional energy-momentum relation specific of the canonical Dirac framework and permissible for particle physics by a case specific relation available for the solid state. The advancement is a unified and consistent mathematical framework incorporating the Hilbert space, the quantum field, and the special relativity. Essential details of the birth and annihilation of the particle states are given by an illustrative two-band model obeying basic laws of quantum mechanics, special relativity, and symmetry principles maintained from the canonical Dirac framework as a desirable property and as a prerogative for the study of the particle coupling and correlation. ; The present research has been supported by the Institute of Solid State Physics, the University of Latvia in the frames of the ERA-NET HarvEnPiez project (No. ES RTD/2016/15); Institute of Solid State Physics, University of Latvia as the Center of Excellence has received funding from the European Union's Horizon 2020 Framework Programme H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under grant agreement No. 739508, project CAMART²

The equivalence between the Heisenberg and Schrödinger pictures is emphasized in the study of mean values in non-equilibrium statistical mechanics. This equivalence leads to a useful definition of adjoint operators. As an application, general theorems are obtained for the mean energy. The second part of this note is devoted to the study of the operator Ψ(z) introduced in non-equilibrium statistical mechanics by I. Prigogine and his coworkers.

It is broadly accepted that network function virtualization will play a key role to meet the stringent and heterogeneous requirements of 5G networks. Although fully centralized approaches were initially proposed, they may impose unfeasible requirements over fronthaul links. Consequently, flexible functional split solutions are being fostered, where a central controller adapts the centralization level to current circumstances. In spite of the growing interest in this type of solutions, most of existing works focus on real implementation, while little attention has been paid so far to performance modeling. In this paper we propose a Markov Chain based controller model, which boils down to a Quasi-Birth-Death process. Under reasonable assumptions, this model provides expected values of buffer occupancy and the time frames would spend in the controller. In this sense, it aims to be a tool to support the allocation of computational resources of the virtualized entities. We validate the proposed model by comparing its results with those obtained by simulation, evincing an almost perfect match between both approaches. ; This work has been funded by the Spanish Government (Ministerio de Economía y Competitividad, Fondo Europeo de Desarrollo Regional, MINECO-FEDER) by means of the project FIERCE: Future Internet Enabled Resilient smart CitiEs (RTI2018-093475-AI00).

We found a quasi-incompressible and liquid mixture of ibuprofen, water and acetone, that enables the crystallization of ibuprofen particles by decreasing the pressure from 15MPa to ambient pressure (~0.1MPa). We measured the solubility of ibuprofen in the mixture as a function of the acetone/water-ratio for pressures of 0.1MPa, 5.5MPa and 15MPa and at 308K using the cloud point method. Based on the solubilities, binodal compositions of the ternary system were modelled using the NRTL-SAC model. The solubility of the drug in the mixture increases with increasing pressure at constant acetone/water-ratio. This pressure sensitive solubility can be exploited for the crystallization of ibuprofen particles via a pressure-drop approach. A pressure-drop from 15MPa to ambient pressure (~0.1MPa) can result in a supersaturation of up to 1.43. ; The project leading to this contribution has received funding from the European Union's Horizon 2020 Research and Innovation Programme under ERC Starting Grant agreement No. 637654 (Inhomogeneities). The ICTS "Nanbiosis", more specifically U6 Unit, unit of the CIBER in Bioengineering, Biomaterials & Nanomedicne (CIBER-BBN), is also acknowledged for the experimental information provided. The authors acknowledge funding from the Generalitat de Catalunya through the Centres de Recerca de Catalunya (CERCA) programme and grant 2017-SGR-918, from the Ministry of Economy and Competitiveness (MINECO) of Spain through grant PID2019–105622RB-I00 (MOL4BIO). ; Peer reviewed

The mass concentration, chemical composition and sources of quasi-ultrafine (quasi-UFP, PM0.25), accumulation (PM0.25–2.5) and coarse mode (PM2.5–10) particles were determined in indoor and outdoor air at 39 schools in Barcelona (Spain). Quasi-UFP mass concentrations measured (25.6 μg m−3 outdoors, 23.4 μg m−3 indoors) are significantly higher than those reported in other studies, and characterised by higher carbonaceous and mineral matter contents and a lower proportion of secondary inorganic ions. Results suggest that quasi-UFPs in Barcelona are affected by local sources in the schools, mainly human activity (e.g. organic material from textiles, etc., contributing 23–46% to total quasi-UFP mass) and playgrounds (in the form of mineral matter, contributing about 9% to the quasi-UFP mass). The particle size distribution patterns of toxicologically relevant metals and major aerosol components was characterised, displaying two modes for most elements and components, and one mode for inorganic salts (ammonium nitrate and sulfate) and elemental carbon (EC). Regarding metals, Ni and Cr were partitioned mainly in quasi-UFPs and could thus be of interest for epidemiological studies, given their high redox properties. Exposure of children to quasi-UFP mass and chemical species was assessed by comparing the concentrations measured at urban background and traffic areas schools. Finally, three main indoor sources across all size fractions were identified by assessing indoor / outdoor ratios (I / O) of PM species used as their tracers: human activity (organic material), cleaning products, paints and plastics (Cl− source), and a metallic mixed source (comprising combinations of Cu, Zn, Co, Cd, Pb, As, V and Cr). Our results support the need to enforce targeted legislation to determine a minimum "safe" distance between major roads and newly built schools to reduce exposure to traffic-derived metals in quasi-UFPs.

36 p. ; The mass concentration, chemical composition and sources of quasi-ultrafine (quasi-UFP, PM0.25), accumulation (PM0.25–2.5) and coarse mode (PM2.5–10) particles were determined in indoor and outdoor air at 39 schools in Barcelona (Spain). Quasi-UFP mass concentrations measured (25.6 μg m−3 outdoors, 23.4 μg m−3 indoors) are significantly higher than those reported in other studies, and characterised by higher carbonaceous and mineral matter contents and a lower proportion of secondary inorganic ions. Results suggest that quasi-UFPs in Barcelona are affected by local sources in the schools, mainly human activity (e.g. organic material from textiles, etc., contributing 23–46% to total quasi-UFP mass) and playgrounds (in the form of mineral matter, contributing about 9% to the quasi-UFP mass). The particle size distribution patterns of toxicologically relevant metals and major aerosol components was characterised, displaying two modes for most elements and components, and one mode for inorganic salts (ammonium nitrate and sulfate) and elemental carbon (EC). Regarding metals, Ni and Cr were partitioned mainly in quasi-UFPs and could thus be of interest for epidemiological studies, given their high redox properties. Exposure of children to quasi-UFP mass and chemical species was assessed by comparing the concentrations measured at urban background and traffic areas schools. Finally, three main indoor sources across all size fractions were identified by assessing indoor / outdoor ratios (I / O) of PM species used as their tracers: human activity (organic material), cleaning products, paints and plastics (Cl− source), and a metallic mixed source (comprising combinations of Cu, Zn, Co, Cd, Pb, As, V and Cr). Our results support the need to enforce targeted legislation to determine a minimum "safe" distance between major roads and newly built schools to reduce exposure to traffic-derived metals in quasi-UFPs. ; Peer reviewed

The mass concentration, chemical composition and sources of quasi-ultrafine (quasi-UFP, PM 0.25 ), accumulation (PM 0.25–2.5 ) and coarse mode (PM 2.5–10 ) particles were determined in indoor and outdoor air at 39 schools in Barcelona (Spain). Quasi-UFP mass concentrations measured (25.6 μg m −3 outdoors, 23.4 μg m −3 indoors) are significantly higher than those reported in other studies, and characterised by higher carbonaceous and mineral matter contents and a lower proportion of secondary inorganic ions. Results suggest that quasi-UFPs in Barcelona are affected by local sources in the schools, mainly human activity (e.g. organic material from textiles, etc., contributing 23–46% to total quasi-UFP mass) and playgrounds (in the form of mineral matter, contributing about 9% to the quasi-UFP mass). The particle size distribution patterns of toxicologically relevant metals and major aerosol components was characterised, displaying two modes for most elements and components, and one mode for inorganic salts (ammonium nitrate and sulfate) and elemental carbon (EC). Regarding metals, Ni and Cr were partitioned mainly in quasi-UFPs and could thus be of interest for epidemiological studies, given their high redox properties. Exposure of children to quasi-UFP mass and chemical species was assessed by comparing the concentrations measured at urban background and traffic areas schools. Finally, three main indoor sources across all size fractions were identified by assessing indoor / outdoor ratios (I / O) of PM species used as their tracers: human activity (organic material), cleaning products, paints and plastics (Cl − source), and a metallic mixed source (comprising combinations of Cu, Zn, Co, Cd, Pb, As, V and Cr). Our results support the need to enforce targeted legislation to determine a minimum "safe" distance between major roads and newly built schools to reduce exposure to traffic-derived metals in quasi-UFPs.

The mass concentration, chemical composition and sources of quasi-ultrafine (quasi-UFP, PM0.25), accumulation (PM0.25–2.5) and coarse mode (PM2.5–10) particles were determined in indoor and outdoor air at 39 schools in Barcelona (Spain). Quasi-UFP mass concentrations measured (25.6 μg m−3 outdoors, 23.4 μg m−3 indoors) are significantly higher than those reported in other studies, and characterised by higher carbonaceous and mineral matter contents and a lower proportion of secondary inorganic ions. Results suggest that quasi-UFPs in Barcelona are affected by local sources in the schools, mainly human activity (e.g. organic material from textiles, etc., contributing 23–46% to total quasi-UFP mass) and playgrounds (in the form of mineral matter, contributing about 9% to the quasi-UFP mass). The particle size distribution patterns of toxicologically relevant metals and major aerosol components was characterised, displaying two modes for most elements and components, and one mode for inorganic salts (ammonium nitrate and sulfate) and elemental carbon (EC). Regarding metals, Ni and Cr were partitioned mainly in quasi-UFPs and could thus be of interest for epidemiological studies, given their high redox properties. Exposure of children to quasi-UFP mass and chemical species was assessed by comparing the concentrations measured at urban background and traffic areas schools. Finally, three main indoor sources across all size fractions were identified by assessing indoor / outdoor ratios (I / O) of PM species used as their tracers: human activity (organic material), cleaning products, paints and plastics (Cl− source), and a metallic mixed source (comprising combinations of Cu, Zn, Co, Cd, Pb, As, V and Cr). Our results support the need to enforce targeted legislation to determine a minimum "safe" distance between major roads and newly built schools to reduce exposure to traffic-derived metals in quasi-UFPs.

Altres ajuts: MAGRAMA/CGL2011-26574 ; Altres ajuts: MAGRAMA/UCA2009020083 ; The mass concentration, chemical composition and sources of quasi-ultrafine (quasi-UFP, PM0.25), accumulation (PM0.25−2.5) and coarse mode (PM2.5−10) particles were determined in indoor and outdoor air at 39 schools in Barcelona (Spain). Quasi-UFP mass concentrations measured (25.6 μgm−3 outdoors, 23.4 μgm−3 indoors) are significantly higher than those reported in other studies, and characterised by higher carbonaceous and mineral matter contents and a lower proportion of secondary inorganic ions. Results suggest that quasi-UFPs in Barcelona are affected by local sources in the schools, mainly human activity (e.g. organic material from textiles, etc., contributing 23-46% to total quasi-UFP mass) and playgrounds (in the form of mineral matter, contributing about 9% to the quasi-UFP mass). The particle size distribution patterns of toxicologically relevant metals and major aerosol components was characterised, displaying two modes for most elements and components, and one mode for inorganic salts (ammonium nitrate and sulfate)and elemental carbon (EC). Regarding metals, Ni and Cr were partitioned mainly in quasi-UFPs and could thus be of interest for epidemiological studies, given their high redox properties. Exposure of children to quasi-UFP mass and chemical species was assessed by comparing the concentrations measured at urban background and traffic areas schools. Finally, three main indoor sources across all size fractions were identified by assessing indoor / outdoor ratios (I / O) of PM species used as their tracers: human activity (organic material), cleaning products, paints and plastics (Cl− source), and a metallic mixed source (comprising combinations of Cu, Zn, Co, Cd, Pb, As, V and Cr). Our results support the need to enforce targeted legislation to determine a minimum "safe" distance between major roads and newly built schools to reduce exposure to traffic-derived metals in quasi-UFPs.

We analyze the linear polarization of the relativistic jet in BL Lacertae object OJ 287 as revealed by multi-epoch Very Long Baseline Array images at 43 GHz and monitoring observations at optical bands. The electric-vector position angle of the optical polarization matches that at 43 GHz at locations that are often in the compact millimeter-wave >core> or, at other epochs, coincident with a bright, quasi-stationary emission feature ∼0.2 mas (∼0.9 pc projected on the sky) downstream from the core. This implies that electrons with high enough energies to emit optical synchrotron and γ-ray inverse Compton radiation are accelerated both in the core and at the downstream feature, the latter of which lies ≥10 pc from the central engine. The polarization vector in the stationary feature is nearly parallel to the jet axis, as expected for a conical standing shock capable of accelerating electrons to GeV energies.© 2018. The American Astronomical Society. All rights reserved. ; The authors thank Dr. Ioannis Myserlis for a critical review of a draft of this manuscript. The authors acknowledge financial support by MEXT/JSPS Grant-in-Aid for Scientific Research on Innovative Areas (No. 25120007). M.S. was supported during this study by a JSPS Postdoctoral Fellowship for Research Abroad. The research at Boston University was supported in part by National Science Foundation grant AST-1615796 and NASA Fermi Guest Investigator Program grants NNX14AQ58G and 80NSSC17K0649. The St. Petersburg University team acknowledges support from Russian Science Foundation grant 17-12-01029. I.A. acknowledges support by a Ramon y Cajal grant of the Ministerio de Economia y Competitividad (MINECO) of Spain. The research at the IAA-CSIC was supported in part by the MINECO through grants AYA2016-80889-P, AYA2013-40825-P, and AYA2010-14844; and by the regional government of Andalucia through grant P09-FQM-4784. Calar Alto Observatory is jointly operated by the Max-Planck-Institut fur Astronomie and the IAA-CSIC. The VLBA is an instrument of the Long Baseline Observatory (LBO). The LBO is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. Data from the Steward Observatory spectro-polarimetric monitoring project were used. This program was supported by Fermi Guest Investigator grants NNX08AW56G, NNX09AU10G, NNX12AO93G, and NNX15AU81G.

Im Mai 2004 wurde vom japanischen Parlament ein neues System der Laienbeteiligung verabschiedet, das Ähnlichkeiten sowohl mit der angloamerikanischen Jury als auch mit den kontinentaleuropäischen Geschworenengerichten aufweist. Es wurde jedoch eine Frist von fünf Jahren bis zum ersten Prozeß unter der Beteiligung von Laien festgesetzt. Der Artikel untersucht zuerst die politischen Hintergründe, die zur Einführung des Laienrichtersystems oder saiban-in seido in dieser Form führten. Danach wird das neue System in Grundzügen dargestellt. Wie in der angloamerikanischen Jury werden den saiban-in Senaten sechs (bzw. vier) Laien angehören, die zufällig aus den Wählerlisten ausgewählt werden. Wie in europäischen Geschworenensenaten werden die Laienrichter zusammen mit drei (bzw. einem) Berufsrichter beraten. Laien- und Berufsrichter zusammen werden sowohl über die Schuldfrage als auch über die Strafzumessung entscheiden. Der Artikel geht in weiterer Folge auf die noch auszuarbeitenden Regeln des Obersten Gerichtshofs für saiban-in Prozesse ein, die erst eine wirklich Beurteilung der Funktionsfähigkeit des neuen Systems erlauben werden. Dabei werden jedoch keine Spekulationen über den möglichen Inhalt dieser Regeln angestellt. Der Schwerpunkt dieses Artikels liegt auf der Untersuchung der Aktivitäten, die vom japanischen Justizministerium, dem Obersten Gerichtshof und der Anwaltschaft zur Vorbereitung des neuen Systems gesetzt wurden. Diese umfassen unter anderen die Schaffung eines PR-Büros, das von mehreren Seiten finanziert wird; die Durchführung von Umfragen zum Kenntnisstand über das neue System in der Öffentlichkeit sowie zur Bereitschaft, am neuen System mitzuwirken; die Bewerbung der Laienbeteiligung durch verschiedene konventionelle und unkonventionelle Mittel und schließlich Maßnahmen zur Ausbildung und zur Förderung der wissenschaftlichen Beschäftigung mit dem neuen Laienbeteiligungssystem. Bei der Bewertung der Entwicklung, der gesetzlichen Regelung und der Förderungsmaßnahmen hinsichtlich des saiban-in-Systems wird ein historischer Maßstab angelegt, um zu sehen, ob die Marginalisierung, die japanischen Systemen der Laienbeteiligung in der Vergangenheit widerfuhr, vermieden wurde. Schließlich erfolgt eine vorsichtig optimistische Bewertung der Möglichkeiten, die das neue System zur Verbesserung der Strafjustiz und der Bürgerbeteiligung in Japan bietet, unter besonderer Berücksichtung der Bemühungen des Justizministeriums, des Obersten Gerichtshofs und der Japanischen Anwaltskammer, wobei jedoch auch auf die mangelhafte Vorbereitung seitens der Strafverteidiger hingewiesen wird. (Übersetzung durch die Red.)