Correlação linear e espsacial entre a produtividade de feijão e a porosidade de um Latossolo Vermelho de Selvíria (MS)

A porosidade do solo exerce grande influência sobre o crescimento e desenvolvimento vegetal, uma vez que o crescimento das raízes, tal como a produtividade das culturas, é limitado pela profundidade que atingem. Portanto, o objetivo deste trabalho foi estudar a variabilidade espacial e as correlações lineares entre a produtividade de feijão e a porosidade do solo. No ano de 2004/2005, no município de Selvíria, MS, foram analisadas a produtividade de grãos de feijão (PG), cultivar IAC Carioca, irrigado, a macroporosidade (MA), a microporosidade (MI) e a porosidade total (PT) do solo em quatro profundidades: 1 (0,0-0,10); 2(0,10-0,20); 3(0,20-0,30) e 4(0,30-0,40 m), num Latossolo Vermelho distroférrico. As amostras de solo e planta foram coletadas em uma malha geoestatística com 75 pontos espaçados de 10 x 10 m, mais 60 pontos de quatro malhas de refinamento numa área de 50 x 150 m. Os atributos estudados, além de não terem variado aleatoriamente, apresentaram média e baixa variabilidades. Seguiram padrões espaciais bem definidos, com alcances entre 11,70 e 104,40 m. A correlação linear entre o atributo da planta e os do solo, em função do elevado número de observações, foi baixa. As de melhor correlação linear com a PG foram a MA1, MI1 e a PT3. Entretanto, do ponto de vista espacial, houve excelente correlação inversa entre a PG e a #PT2. Assim, nos sítios onde a #PT2 diminuiu (0,030-0,045 m³ m-3 ), a PG variou entre 2.173 e 3.529 kg ha-1. Já naqueles onde aumentou (0,045-0,076 m³ m-3 ), a PG ficou entre 1.630-2.173 kg ha-1. Assim, a porosidade total do solo, quando avaliada na camada de 0,10-0,20 m (#PT2), indicou a importância do contato raiz/solo e, de modo inverso, apresentou satisfatório indicador da qualidade física do solo estudado, quando destinado à produtividade de grãos de feijão irrigado.

Linear and nonlinear optical properties of Si nanocrystals in SiO2 deposited by plasma-enhanced chemical-vapor deposition

Linear and nonlinear optical properties of silicon suboxide SiOx films deposited by plasma-enhanced chemical-vapor deposition have been studied for different Si excesses up to 24¿at.¿%. The layers have been fully characterized with respect to their atomic composition and the structure of the Si precipitates. Linear refractive index and extinction coefficient have been determined in the whole visible range, enabling to estimate the optical bandgap as a function of the Si nanocrystal size. Nonlinear optical properties have been evaluated by the z-scan technique for two different excitations: at 0.80¿eV in the nanosecond regime and at 1.50¿eV in the femtosecond regime. Under nanosecond excitation conditions, the nonlinear process is ruled by thermal effects, showing large values of both nonlinear refractive index (n2 ~ ¿10¿8¿cm2/W) and nonlinear absorption coefficient (ß ~ 10¿6¿cm/W). Under femtosecond excitation conditions, a smaller nonlinear refractive index is found (n2 ~ 10¿12¿cm2/W), typical of nonlinearities arising from electronic response. The contribution per nanocrystal to the electronic third-order nonlinear susceptibility increases as the size of the Si nanoparticles is reduced, due to the appearance of electronic transitions between discrete levels induced by quantum confinement.

Shot noise in linear macroscopic resistors

We report on direct experimental evidence of shot noise in a linear macroscopic resistor. The origin of the shot noise comes from the fluctuation of the total number of charge carriers inside the resistor associated with their diffusive motion under the condition that the dielectric relaxation time becomes longer than the dynamic transit time. The present results show that neither potential barriers nor the absence of inelastic scattering are necessary to observe shot noise in electronic devices.

A theoretical and practical study on linear reforms of dual taxes

[cat] En aquest treball extenem les reformes lineals introduïdes per Pfähler (1984) al cas d’impostos duals. Estudiem l’efecte relatiu que els retalls lineals duals d’un impost dual tenen sobre la distribució de la desigualtat -es pot fer un estudi simètric per al cas d’augments d’impostos-. Tambe introduïm mesures del grau de progressivitat d’impostos duals i mostrem que estan connectades amb el criteri de dominació de Lorenz. Addicionalment, estudiem l’elasticitat de la càrrega fiscal de cadascuna de les reformes proposades. Finalment, gràcies a un model de microsimulació i una gran base de dades que conté informació sobre l’IRPF espanyol de l’any 2004, 1) comparem l’efecte que diferents reformes tindrien sobre l’impost dual espanyol i 2) estudiem quina redistribució de la riquesa va suposar la reforma dual de l’IRPF (Llei ’35/2006’) respecte l’anterior impost.

Linear least squares estimation of the first order moving average parameter

We propose an iterative procedure to minimize the sum of squares function which avoids the nonlinear nature of estimating the first order moving average parameter and provides a closed form of the estimator. The asymptotic properties of the method are discussed and the consistency of the linear least squares estimator is proved for the invertible case. We perform various Monte Carlo experiments in order to compare the sample properties of the linear least squares estimator with its nonlinear counterpart for the conditional and unconditional cases. Some examples are also discussed

Systematic trends in self-consistent calculations of linear quantum wires

Systematic trends in the properties of a linear split-gate heterojunction are studied by solving iteratively the Poisson and Schrödinger equations for different gate potentials and temperatures. A two-dimensional approximation is presented that is much simpler in the numerical implementation and that accurately reproduces all significant trends. In deriving this approximation, we provide a rigorous and quantitative basis for the formulation of models that assumes a two-dimensional character for the electron gas at the junction.

Linear relation between deuteron matter radius and the scattering length

We explain the empirical linear relations between the triplet scattering length, or the asymptotic normalization constant, and the deuteron matter radius using the effective range expansion in a manner similar to a recent paper by Bhaduri et al. We emphasize the corrections due to the finite force range and to shape dependence. The discrepancy between the experimental values and the empirical line shows the need for a larger value of the wound extension, a parameter which we introduce here. Short-distance nonlocality of the n-p interaction is a plausible explanation for the discrepancy.

Spatial and linear correlations between soil and corn

The Technologies setting at Agricultural production system have the main characteristics the vertical productivity, reduced costs, soil physical, chemical and biological improvement to promote production sustainable growth. Thus, the study aimed to determine the variability and the linear and special correlations between the plant and soil attributes in order to select and indicate good representation of soil physical quality for forage productivity. In the growing season of 2006, on the Fazenda Bonança in Pereira Barreto (SP), the productivity of autumn corn forage (FDM) in an irrigated no-tillage system and the soil physical properties were analyzed. The purpose was to study the variability and the linear and spatial correlations between the plant and soil properties, to select an indicator of soil physical quality related to corn forage yield. A geostatistical grid was installed to collect soil and plant data, with 125 sampling points in an area of 2,500 m². The results show that the studied properties did not vary randomly and that data variability was low to very high, with well-defined spatial patterns, ranging from 7.8 to 38.0 m. On the other hand, the linear correlation between the plant and the soil properties was low and highly significant. The pairs forage dry matter versus microporosity and stem diameter versus bulk density were best correlated in the 0-0.10 m layer, while the other pairs - forage dry matter versus macro - and total porosity - were inversely correlated in the same layer. However, from the spatial point of view, there was a high inverse correlation between forage dry matter with microporosity, so that microporosity in the 0-0.10 m layer can be considered a good indicator of soil physical quality, with a view to corn forage yield.

Novo índice geoestatístico para a mensuração da dependência espacial

O semivariograma possibilita uma avaliação visual da dependência espacial, mas sem resultar diretamente em um valor numérico único que expresse a mensuração de tal dependência. Contudo, a partir dos parâmetros estimados do modelo teórico ajustado ao semivariograma experimental, é possível construir uma medida dessa dependência espacial. Atualmente, há dois índices na literatura, com uso cada vez mais frequente; porém, há inadequações nesses índices existentes. O objetivo deste trabalho foi propor um novo índice para medir a dependência espacial de dados geoestatísticos, que supere as incipiências dos atuais. Esse novo índice utiliza a relação existente entre o semivariograma e o correlograma, contemplando dessa forma todos os aspectos da dependência espacial. Realizaram-se uma comparação, por simulação, entre o índice proposto e os índices já existentes e também verificação da aplicabilidade do índice proposto utilizando pesquisas reais publicadas, em que ocorreram ajustes dos modelos teóricos esférico, exponencial e gaussiano. Verificou-se que o índice proposto foi melhor que os índices existentes. Além disso, observou-se que os índices existentes podem levar a equívocos nas interpretações do grau de dependência espacial, evidenciando que devem ser evitados. Em decorrência, recomenda-se a utilização do novo índice proposto para medir o grau da dependência espacial.

Exact temporal evolution for some non-linear diffusion process

Exact solutions to FokkerPlanck equations with nonlinear drift are considered. Applications of these exact solutions for concrete models are studied. We arrive at the conclusion that for certain drifts we obtain divergent moments (and infinite relaxation time) if the diffusion process can be extended without any obstacle to the whole space. But if we introduce a potential barrier that limits the diffusion process, moments converge with a finite relaxation time.

Variational localized-site cluster expansions. X. Dimerization in linear Heisenberg chains

Ground-state instability to bond alternation in long linear chains is considered from the point of view of valence-bond (VB) theory. This instability is viewed as the consequence of a long-range order (LRO) which is expected if the ground state is reasonably described in terms of the Kekulé states (with nearest-neighbor singlet pairing). It is argued that the bond alternation and associated LRO predicted by this simple, VB picture is retained for certain linear Heisenberg models; many-body VB calculations on spin s=1 / 2 and s=1 chains are carried out in a test of this argument.