17 resultados para Cyprinus carpio

em Universidade Complutense de Madrid


Relevância:

20.00% 20.00%

Publicador:

Resumo:

Esta tesis pretende, por un lado, estudiar las distintas bibliotecas de Gaspar de Haro y Guzmán, VII marqués del Carpio. Durante sus 58 años de vida reunió alrededor de 6.000 libros que repartió en sus residencias de Madrid, Lisboa, Roma y Nápoles, y que conocemos gracias a distintos inventarios que permiten un estudio completo y cronológico. Se ha atendido para el estudio al conjunto del inventario de bienes, y no sólo a la parte dedicada a los libros, permitiendo reconstruir no sólo el contenido de la biblioteca sino también su decoración y sus usos prácticos. En segundo lugar, se atiende al intencionado uso político de las letras (dedicatorias, usos de la imprenta, patronazgo) como arma para la lucha política y cortesana. La tesis aspira a ser un trabajo relacionado con el amplio campo de la Cultura escrita, entendida como aquella línea de investigación histórica que reflexiona sobre los procesos que generan documentación (impresa y manuscrita), sus usos y fines, así como los espacios y dispositivos que han permitido su conservación, no siempre de forma conjunta. Pero es sobre todo un estudio que podríamos englobar en el vasto campo de la Historia cultural de la política, tomando como case study a Gaspar de Haro y Guzmán...

Relevância:

10.00% 10.00%

Publicador:

Resumo:

Tumor induced angiogenesis processes including the effect of stochastic motion and branching of blood vessels can be described coupling a (nonlocal in time) integrodifferential kinetic equation of Fokker–Planck type with a diffusion equation for the tumor induced ingiogenic factor. The chemotactic force field depends on the flux of blood vessels through the angiogenic factor. We develop an existence and uniqueness theory for this system under natural assumptions on the initial data. The proof combines the construction of fundamental solutions for associated linearized problems with comparison principles, sharp estimates of the velocity integrals and compactness results for this type of kinetic and parabolic operators

Relevância:

10.00% 10.00%

Publicador:

Resumo:

Biofilms are multicellular bacterial structures that adhere to surfaces and often endow the bacterial population with tolerance to antibiotics and other environmental insults. Biofilms frequently colonize the tubing of medical devices through mechanisms that are poorly understood. Here we studied the helicoidal spread of Pseudomonas putida biofilms through cylindrical conduits of varied diameters in slow laminar flow regimes. Numerical simulations of such flows reveal vortical motion at stenoses and junctions, which enhances bacterial adhesion and fosters formation of filamentous structures. Formation of long, downstream-flowing bacterial threads that stem from narrowings and connections was detected experimentally, as predicted by our model. Accumulation of bacterial biomass makes the resulting filaments undergo a helical instability. These incipient helices then coarsened until constrained by the tubing walls, and spread along the whole tube length without obstructing the flow. A three-dimensional discrete filament model supports this coarsening mechanism and yields simulations of helix dynamics in accordance with our experimental observations. These findings describe an unanticipated mechanism for bacterial spreading in tubing networks which might be involved in some hospital-acquired infections and bacterial contamination of catheters.

Relevância:

10.00% 10.00%

Publicador:

Resumo:

We present topological derivative and energy based procedures for the imaging of micro and nano structures using one beam of visible light of a single wavelength. Objects with diameters as small as 10 nm can be located and their position tracked with nanometer precision. Multiple objects dis-tributed either on planes perpendicular to the incidence direction or along axial lines in the incidence direction are distinguishable. More precisely, the shape and size of plane sections perpendicular to the incidence direction can be clearly determined, even for asymmetric and nonconvex scatterers. Axial resolution improves as the size of the objects decreases. Initial reconstructions may proceed by gluing together two-dimensional horizontal slices between axial peaks or by locating objects at three-dimensional peaks of topological energies, depending on the effective wavenumber. Below a threshold size, topological derivative based iterative schemes improve initial predictions of the lo-cation, size, and shape of objects by postprocessing fixed measured data. For larger sizes, tracking the peaks of topological energy fields that average information from additional incident light beams seems to be more effective.

Relevância:

10.00% 10.00%

Publicador:

Resumo:

Photothermal imaging allows to inspect the structure of composite materials by means of nondestructive tests. The surface of a medium is heated at a number of locations. The resulting temperature field is recorded on the same surface. Thermal waves are strongly damped. Robust schemes are needed to reconstruct the structure of the medium from the decaying time dependent temperature field. The inverse problem is formulated as a weighted optimization problem with a time dependent constraint. The inclusions buried in the medium and their material constants are the design variables. We propose an approximation scheme in two steps. First, Laplace transforms are used to generate an approximate optimization problem with a small number of stationary constraints. Then, we implement a descent strategy alternating topological derivative techniques to reconstruct the geometry of inclusions with gradient methods to identify their material parameters. Numerical simulations assess the effectivity of the technique.

Relevância:

10.00% 10.00%

Publicador:

Relevância:

10.00% 10.00%

Publicador:

Relevância:

10.00% 10.00%

Publicador: