983 resultados para micro-channel plate
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Highly charged ions (HCIs) AO(q+)/Pbq+ are extracted from ECR source and impacted on solid surface Of SiO2 Sputtering yield as a function of incident angle is measured by multi-channel plate (MCP). The results have been fitted by a new formula. We proposed the cooperation model to explain the formula. The results demonstrate that the potential assisted kinetic sputtering yield increases with the charge state and potential sputtering (PS) could be induced by impact of HCIs. At larger incident angles, the sputtering yield is dominated by elastic collision between HCIs and material atoms. It is found that, smaller the incident angle, larger the contribution from the potential sputtering. (C) 2009 Elsevier B.V. All rights reserved.
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Multi-hit 3-layer delay-line anode (Hexanode) has an increased ability to detect multi-hit events in a collision experiment. Coupled with a pair of micro-channel plates, it can provide position information of the particles even if the particles arrive at the same time or within small time dwell. But it suffers from some ambiguous outputs and signal losses due to timing order and triggering thresholds etc. We have developed a signal reconstruction program to correct those events. After the program correction, the dead time only exists when 2 paxticles arrive at the same time and the same position within a much smaller range. With the combination of Hexanode and the program, the experimental efficiencies will be greatly improved in near threshold double ionization on He collisions.
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随着微/纳米器件及传感器制造的发展,需要一种对大量粒子进行有效操纵的方法,在此背景下,本文介绍了利用行波介电泳方法对大量微粒进行定位和传输操纵的实现方法,分析了利用行波电泳进行微粒操纵所需要的条件,介绍了实现行波介电泳微粒操控的实验系统及实验操作过程,并在该实验系统下实现了对聚苯乙烯小球悬浮及水平传输操纵实验。该系统方法和实现技术为液体环境下微/纳粒子的装配和分离提供了一种可行技术。
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针对目前在纳米器件及传感器的制造中尚无对大量粒子进行有效操纵的方法,我们利用介电泳方法对大量微粒进行定位和传输操纵,介绍了利用MEMS工艺进行介电泳芯片加工的过程以及整个观测与实验系统的建立,通过有限元软件对传统介电泳和行波介电泳中电极阵列的电场分布进行求解,并在该实验系统下实现了对微通道中的悬浮高度和微粒的运动速度的测量.该实验系统的研究为液体环境下微纳颗粒的装配和分离提供了一条有效的技术路径.
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Numerical analysis of fully developed laminar slip flow and heat transfer in trapezoidal micro-channels has been studied with uniform wall heat flux boundary conditions. Through coordinate transformation, the governing equations are transformed from physical plane to computational domain, and the resulting equations are solved by a finite-difference scheme. The influences of velocity slip and temperature jump on friction coefficient and Nusselt number are investigated in detail. The calculation also shows that the aspect ratio and base angle have significant effect on flow and heat transfer in trapezoidal micro-channel. (c) 2005 Elsevier Ltd. All rights reserved.
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Suitable instrumentation for laser-accelerated proton (ion) beams is critical for development of integrated, laser-driven ion accelerator systems. Instrumentation aimed at beam diagnostics and control must be applied to the driving laser pulse, the laser-plasma that forms at the target and the emergent proton (ion) bunch in a correlated way to develop these novel accelerators. This report is a brief overview of established diagnostic techniques and new developments based on material presented at the first workshop on 'Instrumentation for Diagnostics and Control of Laser-accelerated Proton (Ion) Beams' in Abingdon, UK. It includes radiochromic film (RCF), image plates (IP), micro-channel plates (MCP), Thomson spectrometers, prompt inline scintillators, time and space-resolved interferometry (TASRI) and nuclear activation schemes. Repetition-rated instrumentation requirements for target metrology are also addressed. (C) 2013 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.
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O controle de micro-organismos infecciosos multirresistentes às vezes é ineficaz mesmo com o desenvolvimento de novos antibióticos. Diversos extratos de plantas medicinais têm efeitos antimicrobianos o que pode representar uma alternativa terapêutica para doenças infecciosas, principalmente quando associados aos antibióticos de uso clínico. O objetivo do trabalho foi avaliar a atividade antibacteriana de plantas medicinais sobre bactérias multirresistentes e os efeitos de sua interação com drogas antimicrobianas. Foi determinada a atividade antibacteriana de extratos e frações das plantas Eleutherine plicata (marupazinho), Geissospermum vellosii (pau-pereira) e Portulaca pilosa (amor-crescido) frente a isolados de Staphylococcus aureus Oxacilina Resistente (ORSA) e de Pseudomonas aeruginosa multirresistente, provenientes de processos clínicos humanos, assim como a interação destes produtos vegetais com drogas antimicrobianas de uso clínico. A atividade antibacteriana foi determinada pelo método de disco difusão em ágar Muller Hinton e a Concentração Inibitória Mínima (CIM) pela técnica de microdiluição em placas utilizando caldo Muller Hinton como meio de cultura e resazurina a 0,01% como revelador de crescimento bacteriano. Os extratos e frações foram testados nas concentrações de 500, 250, 125, 62,5, 31,2 e 16,2 μg/mL dissolvidos em DMSO a 10%. As plantas E. plicata e G. vellosii demonstraram atividade contra os isolados ORSA com CIM de 125 μg/mL, enquanto que P. pilosa teve ação sobre os isolados de P. aeruginosa multirresistentes com CIM de 250 μg/mL. Ocorreram 25% de sinergismo e apenas 5% de antagonismo entre as 120 interações de produtos vegetais e drogas antimicrobianas testadas. Frente aos isolados ORSA houve sinergismo com as drogas ciprofloxacina, clindamicina e vancomicina tanto com os derivados de E. plicata como os de G. vellosii. Os produtos de P. pilosa potencializaram a ação das drogas aztreonam, cefepime e piperacilina+tazobactam frente aos isolados de P. aeruginosa multirresistentes. Os resultados comprovaram o potencial das plantas E. plicata, G. vellosii e P. pilosa no controle de infecções bacterianas envolvendo fenótipos multidrogas resistentes (MDR) e que a sua interação com drogas antibacterianas pode representar uma nova alternativa na terapia destas infecções.
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Die Resonanzionisations-Massenspektrometrie (RIMS) ist sowohl für spektroskopische Untersuchungen seltener Isotope als auch für den Ultraspurennachweis langlebiger radioaktiver Elemente einsetzbar. Durch die mehrstufige resonante Anregung atomarer Energieniveaus mit anschließender Ionisation mit Laserlicht wird eine sehr hohe Elementselektivität und Ionisationseffizienz erreicht. Der nachfolgende massenselektive Ionennachweis liefert eine gute Isotopenselektivität zusammen mit einer effektiven Untergrundunterdrückung. Ein wichtiger Bestandteil der RIMS-Apparatur ist ein zuverlässig arbeitendes, leistungsstarkes Lasersystem für die Resonanzionisation. Im Rahmen dieser Arbeit wurde ein von einem hochrepetierenden Nd:YAG-Laser gepumptes, aus drei Titan-Saphir-Lasern bestehendes System fertig aufgebaut und in den Routinebetrieb überführt. Die Titan-Saphir-Laser liefern im Durchstimmbereich von 730 - 880 nm eine mittlere Leistung von bis zu 3 W pro Laser bei einer Linienbreite von 2 - 3 GHz. Sie lassen sich computergesteuert in ihren Wellenlängen durchstimmen. Die mittels Resonanzionisation erzeugten Ionen werden dann in einem Flugzeit-Massenspektrometer entsprechend ihrer Masse aufgetrennt und mit einem Kanalplattendetektor nachgewiesen.Als Voraussetzung für die isotopenselektive Ultraspurenanalyse von Plutonium wurden mit diesem Lasersystem die Isotopieverschiebungen eines effizienten, dreistufigen Anregungsschema für Plutonium bestimmt. Die Laserleistungen reichen zur vielfachen Sättigung der ersten beiden Anregungsschritte und zur zweifachen Sättigung des dritten Anregungsschritts aus.Außerdem wurden die Ionisationsenergien von Pu-239 und Pu-244 zur Untersuchung ihrer Isotopenabhängigkeit bestimmt. Die beiden Ionisationsenergien sind im Rahmen der erreichten Genauigkeit bei einem Meßwert von IP239-IP244 = 0,24(82) cm^-1 gleich.Die Nachweiseffizienz der RIMS-Apparatur für Plutonium wurde in Effizienzmessungen zu 10^-5 bestimmt. Durch die gute Untergrundunterdrückung ergab sich daraus eine Nachweisgrenze von 10^6 Atomen bei der Messung eines Plutoniumisotops. Die Bestimmung der Isotopenverhältnisse von Proben mit einer zertifizierten Isotopenzusammensetzung lieferte eine gute Übereinstimmung der Meßwerte mit den angegebenen Zusammensetzungen.Die RIMS-Apparatur wurde zur Bestimmung des Gehalts und der Isotopenzusammensetzung von Plutonium in Meerwasser- und Staubproben eingesetzt.Auf Grund der Isotopenzusammensetzung konnte gezeigt werden, daß das Plutonium bei den meisten Proben aus dem Fallout von oberirdischen Kernwaffentests stammte. Des weiteren wurde Plutonium in Urinproben bestimmt. Die Nachweisgrenzen lagen bei diesen Umweltproben bei 10^6 bis 10^7 Atomen Plutonium und damit um zwei Größenordnungen niedriger als die Nachweisgrenze für Pu-239 bei der alpha-Spektroskopie, der Standardmethode für den Plutoniumnachweis.
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This thesis documents the design, manufacture and testing of a passive and non-invasive micro-scale planar particle-from-fluid filter for segregating cell types from a homogeneous suspension. The microfluidics system can be used to separate spermatogenic cells from testis biopsy samples, providing a mechanism for filtrate retrieval for assisted reproduction therapy. The system can also be used for point-of-service diagnostics applications for hospitals, lab-on-a-chip pre-processing and field applications such as clinical testing in the third world. Various design concepts are developed and manufactured, and are assessed based on etched structure morphology, robustness to variations in the manufacturing process, and design impacts on fluid flow and particle separation characteristics. Segregation was measured using image processing algorithms that demonstrate efficiency is more than 55% for 1 µl volumes at populations exceeding 1 x 107. the technique supports a significant reduction in time over conventional processing, in the separation and identification of particle groups, offering a potential reduction in the associated cost of the targeted procedure. The thesis has developed a model of quasi-steady wetting flow within the micro channel and identifies the forces across the system during post-wetting equalisation. The model and its underlying assumptions are validated empirically in microfabricated test structures through a novel Micro-Particle Image Velocimetry technique. The prototype devices do not require ancillary equipment nor additional filtration media, and therefore offer fewer opportunities for sample contamination over conventional processing methods. The devices are disposable with minimal reagent volumes and process waste. Optimal processing parameters and production methods are identified with any improvements that could be made to enhance their performance in a number of identified potential applications.
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We demonstrated an Erbium-doped picosecond fiber laser mode locked by carbon nanotube in N-methyl-2-pryrrolidone solvent in an in-fiber micro-channel. © 2011 Optical Society of America.
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An epithermal neutron imager based on detecting alpha particles created via boron neutron capture mechanism is discussed. The diagnostic mainly consists of a mm thick Boron Nitride (BN) sheet (as an alpha converter) in contact with a non-borated cellulose nitride film (LR115 type-II) detector. While the BN absorbs the neutrons in the thermal and epithermal ranges, the fast neutrons register insignificantly on the detector due to their low neutron capture and recoil cross-sections. The use of solid-state nuclear track detectors (SSNTD), unlike image plates, micro-channel plates and scintillators, provide safeguard from the x-rays, gamma-rays and electrons. The diagnostic was tested on a proof-of-principle basis, in front of a laser driven source of moderated neutrons, which suggests the potential of using this diagnostic (BN+SSNTD) for dosimetry and imaging applications.
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Several modern-day cooling applications require the incorporation of mini/micro-channel shear-driven flow condensers. There are several design challenges that need to be overcome in order to meet those requirements. The difficulty in developing effective design tools for shear-driven flow condensers is exacerbated due to the lack of a bridge between the physics-based modelling of condensing flows and the current, popular approach based on semi-empirical heat transfer correlations. One of the primary contributors of this disconnect is a lack of understanding caused by the fact that typical heat transfer correlations eliminate the dependence of the heat transfer coefficient on the method of cooling employed on the condenser surface when it may very well not be the case. This is in direct contrast to direct physics-based modeling approaches where the thermal boundary conditions have a direct and huge impact on the heat transfer coefficient values. Typical heat transfer correlations instead introduce vapor quality as one of the variables on which the value of the heat transfer coefficient depends. This study shows how, under certain conditions, a heat transfer correlation from direct physics-based modeling can be equivalent to typical engineering heat transfer correlations without making the same apriori assumptions. Another huge factor that raises doubts on the validity of the heat-transfer correlations is the opacity associated with the application of flow regime maps for internal condensing flows. It is well known that flow regimes influence heat transfer rates strongly. However, several heat transfer correlations ignore flow regimes entirely and present a single heat transfer correlation for all flow regimes. This is believed to be inaccurate since one would expect significant differences in the heat transfer correlations for different flow regimes. Several other studies present a heat transfer correlation for a particular flow regime - however, they ignore the method by which extents of the flow regime is established. This thesis provides a definitive answer (in the context of stratified/annular flows) to: (i) whether a heat transfer correlation can always be independent of the thermal boundary condition and represented as a function of vapor quality, and (ii) whether a heat transfer correlation can be independently obtained for a flow regime without knowing the flow regime boundary (even if the flow regime boundary is represented through a separate and independent correlation). To obtain the results required to arrive at an answer to these questions, this study uses two numerical simulation tools - the approximate but highly efficient Quasi-1D simulation tool and the exact but more expensive 2D Steady Simulation tool. Using these tools and the approximate values of flow regime transitions, a deeper understanding of the current state of knowledge in flow regime maps and heat transfer correlations in shear-driven internal condensing flows is obtained. The ideas presented here can be extended for other flow regimes of shear-driven flows as well. Analogous correlations can also be obtained for internal condensers in the gravity-driven and mixed-driven configuration.
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Cold-formed steel lipped channel beams (LCB) are used extensively in residential, industrial and commercial buildings as load bearing structural elements. Their shear capacities are considerably reduced when web openings are included for the purpose of locating building services. Past research has shown that the shear capacities of LCBs were reduced by up to 70% due to the inclusion of these web openings. Hence there is a need to improve the shear capacities of LCBs with web openings. A cost effective way of eliminating the detrimental effects of large web openings is to attach suitable stiffeners around the web openings and restore the original shear strength and stiffness of LCBs. Hence detailed experimental studies were undertaken to investigate the behaviour and strength of LCBs with stiffened web openings subject to shear, and combined bending and shear actions. Both plate and stud stiffeners with varying sizes and thicknesses were attached to the web elements of LCBs using different screw-fastening arrangements. Simply supported test specimens of LCBs with aspect ratios of 1.0 and 1.5 were loaded at mid-span until failure. Numerical studies were also undertaken to investigate the strength of LCBs with stiffened web openings. Finite element models of LCBs with stiffened web openings under shear, combined bending and shear actions were developed to simulate the behaviour of tested LCBs. The developed models were then validated by comparing their results with experimental results and used in further studies. Both experimental and finite element analysis results showed that the stiffening arrangements recommended by past research and available design guidelines are not adequate to restore the original shear strengths of LCBs. Therefore new stiffener arrangements were proposed based on screw fastened plate stiffeners. This paper presents the details of this research study and the results.
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An ionic exclusion-enrichment phenomenon has been found at the ends of a nano-channel when electric-driven fluid passes through a micro-/nano-hybrid channel [1-3]. In our experiments, the hybrid channels are fabricated with two poly-dimethysiloxane (PDMS) monoliths microchannels (100um X20um X 9mm) and a nanoporous polycarbonate nuclear track-etched (PCTE) membrane (with 50nm pores). The flows are driven under different electrical potential and the test liquids with different PH values are used. The ion depletion in the source channel is observed by the MicroPIV system. In addition, the numerical simulations about ionic exclusion-enrichment in the hybrid channel are carried out. Some results are as followed: