Simulation of Transport and Gain in Quantum Cascade Lasers

Quantum cascade lasers can be modeled within a hierarchy of different approaches: Standard rate equations for the electron densities in the levels, semiclassical Boltzmann equation for the microscopic distribution functions, and quantum kinetics including the coherent evolution between the states. Here we present a quantum transport approach based on nonequilibrium Green functions. This allows for quantitative simulations of the transport and optical gain of the device. The division of the current density in two terms shows that semiclassical transitions are likely to dominate the transport for the prototype device of Sirtori et al. but not for a recent THz-laser with only a few layers per period. The many particle effects are extremely dependent on the design of the heterostructure, and for the case considered here, inclusion of electron-electron interaction at the Hartree Fock level, provides a sizable change in absorption but imparts only a minor shift of the gain peak.Comment: 12 pages, 5 figures included, to appear in in "Advances in Solid State Physics", ed. by B. Kramer (Springer 2003

A computationally efficient method for calculating the maximum conductance of disordered networks: Application to 1-dimensional conductors

Random networks of carbon nanotubes and metallic nanowires have shown to be very useful in the production of transparent, conducting films. The electronic transport on the film depends considerably on the network properties, and on the inter-wire coupling. Here we present a simple, computationally efficient method for the calculation of conductance on random nanostructured networks. The method is implemented on metallic nanowire networks, which are described within a single-orbital tight binding Hamiltonian, and the conductance is calculated with the Kubo formula. We show how the network conductance depends on the average number of connections per wire, and on the number of wires connected to the electrodes. We also show the effect of the inter-/intra-wire hopping ratio on the conductance through the network. Furthermore, we argue that this type of calculation is easily extendable to account for the upper conductivity of realistic films spanned by tunneling networks. When compared to experimental measurements, this quantity provides a clear indication of how much room is available for improving the film conductivity.Comment: 7 pages, 5 figure

Formas de fósforo em solo submetido à aplicação de lodo celulósico.

A disposição de resíduos de forma segura é um dos grandes desafios da atividade industrial. A aplicação do resíduo celulósico como insumo em áreas de plantios florestais é uma forma atraente de destinação, que pode resolver o problema ambiental de disposição ao mesmo tempo em que contribui na ciclagem e reposição de nutrientes retirados com a colheita florestal. O fósforo é um dos nutrientes mais aplicados nestes plantios em função dos baixos teores observados na maioria dos solos do Brasil, onerando os custos de fertilização agrícola e florestal. O objetivo do trabalho foi alterações na composição de formas de fósforo em CAMBISSOLO HÚMICO Distrófico. Para isso, doses de lodo celulósico foram aplicadas superficialmente em área plantada com Pinus taeda em 2006, imediatamente após o plantio das mudas. Em amostras coletadas na camada de 0 a 5 cm, em 2009, teores de fósforo total, orgânico, inorgânico e solúvel (Mehlich-1) foram determinados. O lodo aplicado aumentou linearmente os teores de fósforo orgânico e total e não alterou os teores de fósforo inorgânico e os teores de fósforo lábil determinados por Mehlich-1.Resumo expandido

Upper bound for the conductivity of nanotube networks

Films composed of nanotube networks have their conductivities regulated by the junction resistances formed between tubes. Conductivity values are enhanced by lower junction resistances but should reach a maximum that is limited by the network morphology. By considering ideal ballistic-like contacts between nanotubes we use the Kubo formalism to calculate the upper bound for the conductivity of such films and show how it depends on the nanotube concentration as well as on their aspect ratio. Highest measured conductivities reported so far are approaching this limiting value, suggesting that further progress lies with nanowires other than nanotubes.Comment: 3 pages, 1 figure. Minor changes. Accepted for publication in Applied Physics Letter

Sistematização de experiências para a transição agroecológica no Distrito Federal.

Como objetivo de sistematizar algumas experiências de transição agroecológica no Distrito Federal esse trabalho foi realizado tendo como base o manejo de hortaliças em unidades familiares de produção. Foram selecionadas 07 propriedades em processo de transição agroecológica e realizado um diagnóstico em quatro fases: fase I - identificação de propriedades em transição agroecológica no DF; fase II- construção de um questionário semi estruturado para o diagnóstico das propriedades; fase III entrevista aos técnicos extensionistas e agricultores e ; fase IV análise dos dados.Trabalho 4. Seminário de Agroecologia do Distrito Federal e Entorno, Brasilia, DF

Multiscale Fractal Descriptors Applied to Nanoscale Images

This work proposes the application of fractal descriptors to the analysis of nanoscale materials under different experimental conditions. We obtain descriptors for images from the sample applying a multiscale transform to the calculation of fractal dimension of a surface map of such image. Particularly, we have used the}Bouligand-Minkowski fractal dimension. We applied these descriptors to discriminate between two titanium oxide films prepared under different experimental conditions. Results demonstrate the discrimination power of proposed descriptors in such kind of application