Hydrodynamics of compressible superfluids in confined geometries

We present a study of the hydrodynamics of compressible superfluids in confined geometries. We use a perturbative procedure in terms of the dimensionless expansion parameter (v/v(s))(2) where v is the typical speed of the flow and vs is the speed of sound. A zero value of this parameter corresponds to the incompressible limit. We apply the procedure to two specific problems: the case of a trapped superfluid with a Gaussian profile of the local density, and that of a superfluid confined in a rotating obstructed cylinder. We find that the corrections due to finite compressibility which are, as expected, negligible for liquid He, are important but amenable to the perturbative treatment for typical ultracold atomic systems.

Quantum-Confined ZnO Nanoshell Photoanodes for Mesoscopic Solar Cells

We present a photoanode for dye-sensitized solar cell (DSC) based on ZnO nanoshell deposited by atomic layer deposition at 150 degrees C on a mesoporous insulating template. An ultrathin layer of ZnO between. 3 and 6 nm, which exhibits quantum confinement effect, is found to be sufficient to transport the photogenerated electrons to the external contacts and exhibits near-unity collection efficiency. A 6 nm ZnO nanoshell on a 2.5 mu m mesoporous nanoparticle Al2O3 template yields photovoltaic power conversion efficiency (PCE) of 4.2% in liquid DSC. Perovskite absorber (CH3NH3PbI3) based solid state solar cells made with similar ZnO nanostructures lead to a high PCE of 7%.

Exploration of supersonic confined mixing layer: Effect of dissimilar gases at different temperatures

The growth rate of high-speed mixing layer between two dissimilar gases is explored through the model free simulation results. To analyse the cause for the higher mixing layer growth rate in comparison to the existing values reported in literature, the results were compared with the model free simulations of mixing of two high-speed streams of nitrogen (similar gas) at matched temperature and density. The analysis indicates that pressure and density fluctuations no longer remain correlated completely for the mixing layer formed between two dissimilar gases at different temperatures in contrast to the complete pressure density correlation for similar gases. It has been observed that the correlation between temperature and density fluctuations is near -1.0 for dissimilar gases in the mixing layer region and is much higher than for similar gases. It is concluded that mixing layer of similar gases shows a decrease in growth rate due to compressibility effect, while that of dissimilar gases shows a decrease due to dominant temperature effect on density.

FRP-Confined Clay Brick Masonry Assemblages under Axial Compression: Experimental and Analytical Investigations

Unreinforced masonry (URM) structures that are in need of repair and rehabilitation constitute a significant portion of building stock worldwide. The successful application of fiber-reinforced polymers (FRP) for repair and retrofitting of reinforced-concrete (RC) structures has opened new avenues for strengthening URM structures with FRP materials. The present study analyzes the behavior of FRP-confined masonry prisms under monotonic axial compression. Masonry comprising of burnt clay bricks and cement-sand mortar (generally adopted in the Indian subcontinent) having E-b/E-m ratio less than one is employed in the study. The parameters considered in the study are, (1) masonry bonding pattern, (2) inclination of loading axis to the bed joint, (3) type of FRP (carbon FRP or glass FRP), and (4) grade of FRP fabric. The performance of FRP-confined masonry prisms is compared with unconfined masonry prisms in terms of compressive strength, modulus of elasticity and stress-strain response. The results showed an enhancement in compressive strength, modulus of elasticity, strain at peak stress, and ultimate strain for FRP-confined masonry prisms. The FRP confinement of masonry resulted in reducing the influence of the inclination of the loading axis to the bed joint on the compressive strength and failure pattern. Various analytical models available in the literature for the prediction of compressive strength of FRP-confined masonry are assessed. New coefficients are generated for the analytical model by appending experimental results of the current study with data available in the literature. (C) 2014 American Society of Civil Engineers.

Structure and Dynamics of Octamethylcyclotetrasiloxane Confined between Mica Surfaces

Using a molecular model for octamethylcydotetrasiloxane (OMCTS), molecular dynamics simulations are carried out to probe the phase state of OMCTS confined between two mica surfaces in equilibrium With a reservoir. Molecular dynamics simulations are carried out for elevations ranging from 5 to 35 K above the melting point for the OMCTS model used in this study. The Helmholtz free energy is, computed for a specific confinement using the :two-phase thermodynamic (2PT) method. Analysis of the in-plane pair correlation functions did not reveal signatures of freezing even under an extreme confinement of two layers. OMCTS is found to orient with a wide distribution of orientations with respect to the mica surface, with a distinct preference for the surface parallel configuration in the contact layers. The self-intermediate scattering function is found to decay with increasing relaxation times as the surface separation is decreased, and the two-step relaxation in the scattering function, a signature of glassy dynamics, distinctly evolves as the temperature is lowered. However, even at 5 K above the melting point, we did not observe a freezing transition and the self-intermediate scattering functions relax within 200 ps for the seven-layered confined system. The self diffusivity and relaxation times obtained from the Kohlrausch-Williams-Watts stretched exponential fits to the late alpha-relaxation exhibit power law scalings with the packing fraction as predicted by mode coupling theory. A distinct discontinuity in the Helmholtz free energy, potential energy, and a sharp change in the local bond order parameter, Q(4), was observed at 230 K for a five-layered system upon cooling, indicative of a first-order transition. A freezing point depression of about 30 K was observed for this five-layered confined system, and at the lower temperatures, contact layers were found to be disordered with long-range order present only in the inner layers. These dynamical signatures indicate that confined OMCTS undergoes a slowdown akin to a fluid approaching a glass transition upon increasing confinement, and freezing under confinement would require substantial subcooling below the bulk melting point of OMCTS.

圆柱受限空间内喷雾燃烧振荡特性研究=Investigation of the Characteristics of Thermal Instability in A Confined Combustor

本文研究了圆柱受限空间内的喷雾火焰嫩烧压力振荡的特性。为了更清楚地了解火焰的构造, 首先测量了火焰的温度场，在较大的一次风和二次风变化范围内, 测量了压力的振荡特性。结果表明，火焰的稳定是由回流区完成的, 在较小的一次风燃料当量比和中等的二次风量时, 振荡最强, 达到100Pa左右的量级,其频率为200-230Hz左右,分析表明燃烧室中的振荡是轴向驻波振荡。

Las llagas de lo imaginario : un encuentro entre Juliana de Norwich y Adolphe Gesché

El objetivo de estas líneas es crear un ámbito de encuentro entre Juliana de Norwich, mística inglesa que vivó entre los años 1342-¿1416? y Adolphe Gesché, teólogo contemporáneo, muerto recientemente. Proponemos este encuentro a través de la categoría “imaginario”. Este imaginario puede ser vía de salida de la estrechez racionalista, de la razón desligada de otras dimensiones de lo humano. El imaginario de la herida de la mística medieval, y la pregunta por el sentido a través del imaginario que plantea el teólogo del siglo XX, pueden ser puertas abiertas y sugerentes también para la filosofía y la teología de hoy.

La ciudad y el paradigma de comunión : un elogio de lo urbano

Este artículo trata de ofrecer una mirada positiva de la ciudad, soslayando su aspecto sombrío, bastante difundido por distintos medios. Está fundado en la conjetura de que si hay un nuevo paradigma de comunión emergente, entonces no se puede soslayar en su constitución a la ciudad de hoy configurada en vastas regiones metropolitanas, en ciudades globales y en un planeta Tierra que es todo él ciudad, aunque haya, por supuesto, regiones que funcionan como campo y naturaleza, pero administradas y gestionadas desde las ciudades. Además, indaga en el carácter propio de la ciudad como un nudo dinámico de vínculos. Estos vínculos son una síntesis constante de materia, energía, información, comunicación y comunión de manera tal que, en el metabolismo urbano, hay un mundo natural que está siempre transformándose. Luego de apreciar la relación sociedad-naturaleza, considero la dimensión más filosófica del habitar para concluir en la apreciación de la ciudad como sacramento.

Lo patronal, lo estatal y lo parental en la autobiografía de Ankhtifi de Mo'alla

Resumen: Entre las principales contribuciones académicas de Alicia Daneri, sobresale un estudio monográfico sobre el Primer Período Intermedio (Las Dinastías VII-VIII y el período heracleopolitano en Egipto, 1992). Allí, la Autobiografía de Ankhtifi de Mo‘alla es considerada en el marco de un análisis de la crisis política y socioeconómica que la historiografía ha señalado como el rasgo distintivo de la época. Posteriormente, Jan Assmann (The mind of Egypt, 2002 [1996]) ha abordado esa misma autobiografía, para destacar la emergencia de un nuevo tipo de actor social durante tal período, interpretado en clave de patronazgo. Ciertamente, aquella escena política en crisis facilita la percepción de una lógica social ligada a las prácticas patronales. Sin embargo, tal cosa no implica que otras grandes lógicas de organización social como aquellas que corresponden al ámbito estatal y al del parentesco no continúen gravitando con fuerza. El propósito de este artículo es el de reconsiderar la Autobiografía de Ankhtifi en un intento por vislumbrar el alcance específico de lo patronal, lo estatal y lo parental en el texto, lo que a su vez permite una reflexión más amplia sobre las características de la organización social y política en el valle del Nilo durante el Primer Período Intermedio.

Lo agonal y lo ireneico en la filosofía

Resumen: La esencia de lo que debemos entender por filosofía se encuentra más del lado del quehacer, de la tarea, que del lado de “lo hecho”. Entre el sustantivo (filosofía) y el verbo (filosofar) hay una estrecha relación. Este trabajo se aboca, primeramente, a lo que está antes del quehacer, que se encuentra en la experiencia de ruptura. Luego se propone articular las dos grandes actitudes originarias que se abren a partir de ese momento, una más combativa (lo agonal) y la otra más pacifista (lo ireneico).