Steven Spielberg descubre Tintín con El secreto del unicornio

El secreto del Unicornio es la décima novela gráfica de la serie Las aventuras de Tintín,3 del autor belga Georges Prosper Remi, más conocido por su seudónimo Hergé. El relato que ahora presentamos5 es la primera parte del que le sigue, El tesoro de Rackham el Rojo, y cinematográficamente corresponderá a una futura segunda parte del filme. Tintín, joven reportero belga, se mete a menudo en problemas por defender causas justas.

Red Riding Hood: Caperucita Roja, de Perrault a Catherine Hardwicke

El cuento de Caperucita Roja1 ha sobrevivido a través de los años gracias a su rico simbolismo por las imágenes de gran alcance que contiene. La joven niña con la capa roja que se encuentra con un lobo disfrazado de abuela es algo que golpea profundamente al receptor. El tema se ha estudiado desde numerosos puntos de vista; destaca el psicoanalista Bruno Bettelheim,2 que señala la caperuza que lleva la protagonista como símbolo de su entrada en la pubertad, asociando el color rojo con el ciclo menstrual. No todos los críticos están de acuerdo con este aspecto, aunque bastantes autores relacionan el cuento con el despertar de la sexualidad,la adolescencia y todo lo que conlleva. Perrault tampoco descuida tener en cuenta su advertencia de los riesgos en la etapa, sobre todo para las niñas románticas, en la moraleja final del relato.

Athermal character of structural phase transitions

The significance of thermal fluctuations in nucleation in structural first-order phase transitions has been examined. The prototypical case of martensitic transitions has been experimentally investigated by means of acoustic emission techniques. We propose a model based on the mean first-passage time to account for the experimental observations. Our study provides a unified framework to establish the conditions for isothermal and athermal transitions to be observed.

Local character of magnetic coupling in ionic solids

Magnetic interactions in ionic solids are studied using parameter-free methods designed to provide accurate energy differences associated with quantum states defining the Heisenberg constant J. For a series of ionic solids including KNiF3, K2NiF4, KCuF3, K2CuF4, and high- Tc parent compound La2CuO4, the J experimental value is quantitatively reproduced. This result has fundamental implications because J values have been calculated from a finite cluster model whereas experiments refer to infinite solids. The present study permits us to firmly establish that in these wide-gap insulators, J is determined from strongly local electronic interactions involving two magnetic centers only thus providing an ab initio support to commonly used model Hamiltonians.

The Impact of a Character Posture Model on the Communication of Affect in an Immersive Virtual Environment

This paper presents the quantitative and qualitative findings from an experiment designed to evaluate a developing model of affective postures for full-body virtual characters in immersive virtual environments (IVEs). Forty-nine participants were each requested to explore a virtual environment by asking two virtual characters for instructions. The participants used a CAVE-like system to explore the environment. Participant responses and their impression of the virtual characters were evaluated through a wide variety of both quantitative and qualitative methods. Combining a controlled experimental approach with various data-collection methods provided a number of advantages such as providing a reason to the quantitative results. The quantitative results indicate that posture plays an important role in the communication of affect by virtual characters. The qualitative findings indicated that participants attribute a variety of psychological states to the behavioral cues displayed by virtual characters. In addition, participants tended to interpret the social context portrayed by the virtual characters in a holistic manner. This suggests that one aspect of the virtual scene colors the perception of the whole social context portrayed by the virtual characters. We conclude by discussing the importance of designing holistically congruent virtual characters especially in immersive settings.

Characterization and quantification of polyradical character

The decomposition of 〈͈Ŝ²〉 into atomic and diatomic contributions (local spin analysis) is used to detect and quantify the polyradical character of molecular systems. A model triradical system is studied in detail, and the local spin analysis is used to distinguish several patterns of local spin distributions and spin-spin interactions that can be found for different electronic states. How close a real molecular system is to an ideal system of k perfectly localized spin centers is utilized to define a measure of its k-radical character. The spin properties and triradical character of the lowest-lying electronic states of a number of all σ, all π, and σ-π organic triradicals are discussed in detail. The local spin contributions exhibit good correlation with experimental triradical stabilization energies