26,470 research outputs found
Inertial-range kinetic turbulence in pressure-anisotropic astrophysical plasmas
A theoretical framework for low-frequency electromagnetic (drift-)kinetic
turbulence in a collisionless, multi-species plasma is presented. The result
generalises reduced magnetohydrodynamics (RMHD) and kinetic RMHD (Schekochihin
et al. 2009) for pressure-anisotropic plasmas, allowing for species drifts---a
situation routinely encountered in the solar wind and presumably ubiquitous in
hot dilute astrophysical plasmas (e.g. intracluster medium). Two main
objectives are achieved. First, in a non-Maxwellian plasma, the relationships
between fluctuating fields (e.g., the Alfven ratio) are order-unity modified
compared to the more commonly considered Maxwellian case, and so a quantitative
theory is developed to support quantitative measurements now possible in the
solar wind. The main physical feature of low-frequency plasma turbulence
survives the generalisation to non-Maxwellian distributions: Alfvenic and
compressive fluctuations are energetically decoupled, with the latter passively
advected by the former; the Alfvenic cascade is fluid, satisfying RMHD
equations (with the Alfven speed modified by pressure anisotropy and species
drifts), whereas the compressive cascade is kinetic and subject to
collisionless damping. Secondly, the organising principle of this turbulence is
elucidated in the form of a generalised kinetic free-energy invariant. It is
shown that non-Maxwellian features in the distribution function reduce the rate
of phase mixing and the efficacy of magnetic stresses; these changes influence
the partitioning of free energy amongst the various cascade channels. As the
firehose or mirror instability thresholds are approached, the dynamics of the
plasma are modified so as to reduce the energetic cost of bending
magnetic-field lines or of compressing/rarefying them. Finally, it is shown
that this theory can be derived as a long-wavelength limit of non-Maxwellian
slab gyrokinetics.Comment: 61 pages, accepted to Journal of Plasma Physics; Abstract abridge
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Influence of convection and biomass burning outflow on tropospheric chemistry over the tropical Pacific
Observations over the tropics from the Pacific Exploratory Mission-Tropics A Experiment are analyzed using a one-dimensional model with an explicit formulation for convective transport. Adopting tropical convective mass fluxes from a general circulation model (GCM) yields a large discrepancy between observed and simulated CH3I concentrations. Observations of CH3I imply the convective mass outflux to be more evenly distributed with altitude over the tropical ocean than suggested by the GCM. We find that using a uniform convective turnover lifetime of 20 days in the upper and middle troposphere enables the model to reproduce CH3I observations. The model reproduces observed concentrations of H2O2 and CH3OOH. Convective transport of CH3OOH from the lower troposphere is estimated to account for 40-80% of CH3OOH concentrations in the upper troposphere. Photolysis of CH3OOH transported by convection more than doubles the primary HOx source and increases OH concentrations and O3 production by 10-50% and 0.4 ppbv d-1, respectively, above 11 km. Its effect on the OH concentration and O3 production integrated over the tropospheric column is, however, small. The effects of pollutant import from biomass burning regions are much more dominant. Using C2H2 as a tracer, we estimate that biomass burning outflow enhances O3 concentrations, O3 production, and concentrations of NOx and OH by 60%, 45%, 75%, and 7%, respectively. The model overestimates HNO3 concentrations by about a factor of 2 above 4 km for the upper one-third quantile of C2H2 data while it generally reproduces HNO3 concentrations for the lower and middle one-third quantiles of C2H2 data. Copyright 2000 by the American Geophysical Union
Theory and design of uniform concentric spherical arrays with frequency invariant characteristics
IEEE International Conference on Acoustics, Speech and Signal Processing, Toulouse, France, 14-19 May 2006This paper proposes a new digital beamformer for uniform concentric spherical array (UCSA) having nearly frequency invariant (FI) characteristics. The basic principle is to transform the received signals to the phase mode and remove the frequency dependency of the individual phase mode through the use of a digital beamforming network. It is shown that the far field pattern of the array is determined by a set of weights and it is approximately invariant over a wide range of frequencies. FI UCSAs are electronic steerable in both the azimuth angle and elevation angle, unlike their concentric circular array counterpart. A design example is given to demonstrate the design and performance of the proposed FI UCSA. © 2006 IEEE.published_or_final_versio
Theory and design of uniform concentric circular arrays with frequency invariant characteristics
This paper proposes a new digital beamformer for uniform concentric circular array (UCCA) having nearly frequency invariant (FI) characteristics. The basic principle is to transform the received signals to the phase mode and remove the frequency dependency of the individual phase mode through the use of a digital beamforming network. The far field pattern of the array is determined by a set of weights and it is approximately invariant over a wide range of frequencies. Compared with FI uniform circular array (UCA), FI UCCAs are able to achieve a wider bandwidth. Design examples are given to demonstrate the principle of the proposed UCCA-FIB and its application to broadband DOA estimation of coherent sources. © 2005 IEEE.published_or_final_versio
Kajian mengenai tahap kesedaran penjagaan penglihatan terhadap kanak-kanak
Tujuan kajian ini ialah untuk mendapatkan maklumat tentang tahap kesedaran penjagaan penglihatan terhadap kanak-kanak. Seramai 174 ibubapa di Semenanjung Malaysia telah mengambil bahagian dalam tinjauan ini yang berdasarkan persampelan insidental. Satu temubual berstruktur telah dilakukan sama ada secara berdepan atau melalui panggilan telefon bagi mendapatkan maklumat mengenai kesedaran penjagaan penglihatan. Kajian mendapati kira-kira 26% kanak-kanak adalah miopik. Manakala 57% daripada kanak-kanak tidak pernah melalui sebarang ujian penglihatan sebelum ini. Daripada mereka yang membawa anak mereka untuk pemeriksaan penglihatan, 44% daripada mereka melakukan demikian hanya selepas menerima rungutan daripada anak mereka tentang masalah penglihatan. Kajian in merumuskan bahawa kesedaran tentang kepentingan penjagaan penglihatan terhadap kanak-kanak adalah kurang memuaskan dan perlukan tindakan
Adaptive beamforming using frequency invariant uniform concentric circular arrays
This paper proposes new adaptive beamforming algorithms for a class of uniform concentric circular arrays (UCCAs) having near-frequency invariant characteristics. The basic principle of the UCCA frequency invariant beamformer (FIB) is to transform the received signals to the phase mode representation and remove the frequency dependence of individual phase modes through the use of a digital beamforming or compensation network. As a result, the far field pattern of the array is electronic steerable and is approximately invariant over a wider range of frequencies than the uniform circular arrays (UCAs). The beampattern is governed by a small set of variable beamformer weights. Based on the minimum variance distortionless response (MVDR) and generalized sidelobe canceller (GSC) methods, new recursive adaptive beamforming algorithms for UCCA-FIB are proposed. In addition, robust versions of these adaptive beamforming algorithms for mitigating direction-of-arrival (DOA) and sensor position errors are developed. Simulation results show that the proposed adaptive UCCA-FIBs converge much faster and reach a considerable lower steady-state error than conventional broadband UCCA beamformers without using the compensation network. Since fewer variable multipliers are required in the proposed algorithms, it also leads to lower arithmetic complexity and faster tracking performance than conventional methods. © 2007 IEEE.published_or_final_versio
A semi-definite programming (SDP) method for designing IIR sharp cut-off digital filters using frequency-response masking
IEEE International Symposium on Circuits and Systems Proceedings, Vancouver, Canada, 23-26 May 2004This paper studies the design of frequency response masking (FRM) filters with infinite duration impulse response (IIR) model and masking sub-filters. They are useful in realizing sharp cutoff digital filters with low passband delays. The designs of the model and masking filters are carried out by means of semidefinite programming (SDP) and model order reduction. Design results show that low complexity FRM filters with low passband delay can be obtained.published_or_final_versio
The design of digital all-pass filters using second-order cone programming (SOCP)
This brief proposes a new method for designing digital all-pass filters with a minimax design criterion using second-order cone programming (SOCP). Unlike other all-pass filter design methods, additional linear constraints can be readily incorporated. The overall design problem can be solved through a series of linear programming subproblems and the bisection search algorithm. The convergence of the algorithm is guaranteed. Nonlinear constraints such as the pole radius constraint of the filters can be formulated as additional SOCP constraints using Rouche's theorem. It was found that the pole radius constraint allows an additional tradeoff between the approximation error and the stability margin. The effectiveness of the proposed method is demonstrated by several design examples and comparison with conventional methods. © 2005 IEEE.published_or_final_versio
Color variation reduction of gan-based white light-emitting diodes via peak-wavelength stabilization
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Analysis and Modeling of High-Power Phosphor-Coated White Light-Emitting Diodes With a Large Surface Area
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