3,619 research outputs found
Point-Coupling Models from Mesonic Hypermassive Limit and Mean-Field Approaches
In this work we show how nonlinear point-coupling models, described by a
Lagrangian density that presents only terms up to fourth order in the fermion
condensate , are derived from a modified meson-exchange
nonlinear Walecka model. The derivation can be done through two distinct
methods, namely, the hypermassive meson limit within a functional integral
approach, and the mean-field approximation in which equations of state at zero
temperature of the nonlinear point-coupling models are directly obtained.Comment: 18 pages. Accepted for publication in Braz. J. Phy
Diagnóstico rural participativo da comunidade de São Raimundo no MunicÃpio de Maués.
A necessidade de realizar diagnósticos participativos está diretamente relacionada à necessidade de ter um espelho da comunidade de uma forma ágil, mostrando a organização e o funcionamento da mesma. Esse diagnóstico permitiu uma efetiva participação da equipe do projeto junto à comunidade como catalisador de um processo de pesquisa participativa, e seguiu as bases teóricas do diagnóstico participativo
Estratégias metodológicas para o diálogo participativo junto às comunidades ribeirinhas na Amazônia.
Seleção prévia das comunidades. Apresentação do projeto. Levantamentos. Abordagem junto às comunidades ribeirinhas. Análise dos dados
Experiência em diagnóstico rural participativo o caso da comunidade do Lago do Ariauzinho, MunicÃpio de Iranduba-AM.
Experiência em diagnóstico rural participativo o caso da comunidade do Lago do Ariauzinho, MunicÃpio de Iranduba-AM
Canonical Analysis of the Jackiw-Teitelboim Model in the Temporal Gauge. I. The Classical Theory
As a preparation for its quantization in the loop formalism, the
2-dimensional gravitation model of Jackiw and Teitelboim is analysed in the
classical canonical formalism. The dynamics is of pure constraints as it is
well-known. A partial gauge fixing of the temporal type being performed, the
resulting second class constraints are sorted out and the corresponding Dirac
bracket algebra is worked out. Dirac observables of this classical theory are
then calculated.Comment: 15 pages, Latex. Misprint correction
Simulation of moisture transport in fired-clay brick masonry structures accounting for interfacial phenomena
This paper presents a numerical study on moisture transport in brick masonry walls with a special focus on the simulation of their hygric performance as well as the hydraulic phenomena at the brick-mortar interface. A diffusivity model based on Fick's law is used to describe the moisture transport accounting for both liquid and water vapor movement. The necessary hygric parameters are obtained directly from experimental tests or determined by curve fitting. The proposed model is validated with respect to water absorption and drying tests. The good-fitness of the results is qualitatively assessed and an overall good agreement is found between the simulated and measured curves. It is demonstrated that the chosen liquid water diffusivity expression needs to be adjusted to represent drying processes; the necessary adjustment is made through a diffusivity factor implemented in the original analytical expression. The interface impact on water absorption is introduced as a hydraulic resistance. Moreover, it is hypothesized that the presence of successive interfaces entails an additive in-series effect. Conversely, the interfacial impact on drying is negligible. Finally, the proposed model is extended to different modeling approaches commonly used for mechanical studies of masonry. The necessary input data, modeling methodology, advantages and disadvantages associated with each modeling strategy are also discussed. The present study points out the need of studying water absorption in multi-layered structures made up of constituents with relatively similar hygric behavior. In such cases, the impact of imperfect contact at the interface between materials is not negligible.Article publishing charge (APC) funded by agreement between Portugal (FCT/FCCN) and Elsevie
Agriculturas de base ecológica na comunidade Barreira do Andirá.
Este trabalho teve como objetivo caracterizar e sistematizar agriculturas de base ecológica na comunidade Barreira do Andirá. Utilizando metodologia adequada e participativa, foram observadas algumas agriculturas como o uso de sistemas agroflorestais com a cultura principal sendo o guaraná, Paullinia cupana e a criação de abelhas meliponeas
Homogenization and seismic assessment : review and recent trends
The mechanics of masonry structures has been for long
underdeveloped in comparison with other fields of knowledge. Presently,
non-linear analysis is a popular field in masonry research and
advanced computer codes are available for researchers and practitioners.
The chapter presents a discussion of masonry behaviour and
clarifies how to obtain the non-linear data required by the computations.
The chapter also addresses different homogenisation techniques
available in the literature in the linear and rigid-plastic case,
aiming at defining a catalogue and at discussing the advantages and
disadvantages of the different approaches. Special attention is given
to stress assumed models based either on a polynomial expansion
of the micro-stress field or in the discretization of the unit cell by
means of a few constant stress finite elements CST with joints reduced
to interfaces. Finally, the aspects of seismic assessment are
presented and case studies involving the use of macro-block analysis,
static (pushover) analysis and time integration analysis are
discussed.(undefined
Relativistic Mean-Field Hadronic Models under Nuclear Matter Constraints
Relativistic mean-field (RMF) models have been widely used in the study of
many hadronic frameworks because of several important aspects not always
present in nonrelativistic models, such as intrinsic Lorentz covariance,
automatic inclusion of spin, appropriate saturation mechanism for nuclear
matter, causality and, therefore, no problems related to superluminal speed of
sound. With the aim of identifying the models which best satisfy well known
properties of nuclear matter, we have analyzed parameterizations of seven
different types of RMF models under three different sets of constraints related
to symmetric nuclear matter, pure neutron matter, symmetry energy, and its
derivatives. One of these (SET1) is formed of the same constraints used in a
recent work [M. Dutra et al., Phys. Rev. C 85, 035201 (2012)] in which we
analyzed Skyrme parameterizations. The results pointed to models
consistent with all constraints. By using another set of constraints, namely,
SET2a, formed by the updated versions of the previous one, we found models
approved simultaneously. Finally, in the third set, named SET2b, in which the
values of the constraints are more restrictive, we found consistent models.
Another interesting feature of our analysis is that the results change
dramatically if we do not consider the constraint regarding the volume part of
the isospin incompressibility (). In this case, we have
approved models in SET2a and in SET2b.Comment: 63 pages, 3 figures and 9 tables. Version accepted for publication in
PR
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