Hollow Cathode Discharge
Mostrando 1-12 de 12 artigos, teses e dissertações.
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1. Silicon Nanostructuring Using SF6/O2 Downstram Plasma Etching: Morphological, Optical and Sensing Properties
Silicon (Si) nanostructures were prepared in the downstream of radiofrequency SF6/O2 mixture plasma generated in 13.56 MHz hollow cathode discharge system. Depending on the oxygen percentage in the mixture, the obtained Si nanostructures were characterized for their different properties: etching rate, morphology, optical reflectance, photoluminescence, spect
Mat. Res.. Publicado em: 10/07/2018
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2. Plasma assisted parts' manufacturing: sintering and surface texturing - part II - influence of inter-cathode distance and gas pressure
The acquirements and potentiality universe of cleaning, heating and/or sputtering effects caused by plasma species bombardment phenomenon on the surface characteristics and finishing of manufactured parts treated in DC abnormal glow discharge opens a new research and development field, called here of Plasma Assisted Parts' Manufacturing (PAP'M). The adequate
Journal of the Brazilian Society of Mechanical Sciences and Engineering. Publicado em: 2010-06
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3. Plasma assisted parts' manufacturing: sintering and surface texturing - part I - influence of sintering time and temperature
The acquirements and potentiality universe of cleaning, heating and/or sputtering effects caused by plasma species bombardment phenomenon on the surface characteristics and finishing of manufactured parts treated in DC abnormal glow discharge opens a new research and development field, called here of Plasma Assisted Parts' Manufacturing (PAP'M). The adequate
Journal of the Brazilian Society of Mechanical Sciences and Engineering. Publicado em: 2010-06
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4. Deposition of thin film of titanium on ceramic substrate using the discharge for hollow cathode for Al2O3/Al2O3 indirect brazing
Thin films of titanium were deposited onto Al2O3 substrate by hollow cathode discharge method for the formation of a ceramic-ceramic joint using indirect brazing method. An advantage of using this technique is that a relatively small amount of titanium is required for the metallization of the ceramic surface when compared with other conventional methods. Rap
Materials Research. Publicado em: 2009
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5. Hollow cathode discharge: application of a deposition treatment in the iron sintering
The influence of a previous deposition treatment on the final amount of alloying elements (Cr and Ni) deposited and diffused into the surface of iron parts sintered in hollow cathode discharge (HCD) was studied. Cylindrical pure iron pressed samples, being a central cathode, were placed concentrically in the interior of an AISI 310 steel machine-made outer c
Journal of the Brazilian Society of Mechanical Sciences and Engineering. Publicado em: 2008-06
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6. Comparative study of porosity and pores morphology of unalloyed iron sintered in furnace and plasma reactor
Samples of unalloyed iron were sintered in the presence of an abnormal glow discharge using a confined anode-cathode configuration. The samples were placed on a holder acting as the discharge anode inside an AISI 1020 steel hollow cathode. Heating of the outer cathode was obtained by the bombardment of ions and energetic neutral particles. As a consequence o
Materials Research. Publicado em: 2007-03
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7. Hollow cathode magnetron deposition of AlN thin films: crystalline structure and morphology
A new dc hollow cathode plasma source has been assembled whith a conventional planar magnetron cathode used together with another plane cathode plate to form a hollow cathode cavity. The system comprises two cathode plates of aluminium separated by a distance d, one of them acting as target of the magnetron cathode, the other being an ordinary plate. The dis
Brazilian Journal of Physics. Publicado em: 2006-06
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8. Study of excitation rates in a hollow cathode discharge
In this work a dc discharge with a copper hollow cathode in argon used for deposition applications is investigated using atomic emission spectroscopy. Typical discharge parameters during our investigation are pressures between 80 and 200 Pa and current densities up to 7 mA cm-2. The radial light intensity profiles of some selected copper and argon lines were
Brazilian Journal of Physics. Publicado em: 2003-06
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9. Desenvolvimento de fontes laser, espectroscopia de alta resolução e resfriamento e aprisionamento magneto-optico de atomos de calcio
In this work, we report on an experimental system for laser cooling and magneto-optical trapping of calcium atoms, the development of the laser sources for this system, and a spectroscopic analysis of calcium transitions in hollow cathode electric discharges. In the case of calcium, the most efficient optical transition for the atom motion manipulation by ra
Publicado em: 2002
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10. Influence of the radial spacing between cathodes on the surface composition of iron samples sintered by hollow cathode electric discharge
The present work reports an investigation of the influence of the radial spacing between cathodes on the iron sintering process by hollow cathode electrical discharge, with surface enrichment of the alloying elements Cr and Ni. Pressed cylindrical samples of 9.5 mm diameter and density of 7.0 ± 0.1 g/cm³ were prepared by compaction of Ancorsteel 1000C iron
Materials Research. Publicado em: 2001-10
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11. Estudos espectroscópicos das propriedades de uma descarga elétrica em atmosfera de gás inerte. / Spectroscopic properties of an electrical discharge in an inert gas atmosphere.
Apresentamos os resultados de medidas espectroscópicas feitas em átomos de elementos contidos em uma descarga elétrica do tipo catodo oco, usando um laser sintonizável de emissão contínua. Com experiências de absorção ótica foi possível determinar a densidade populacional e a temperatura dos átomos de 238U no estado fundamental, em função dos v
IBICT - Instituto Brasileiro de Informação em Ciência e Tecnologia. Publicado em: 18/11/1989
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12. Magnetic nanodots from atomic Fe: Can it be done?
Laser focusing of Fe atoms offers the possibility of creating separate magnetic structures on a scale of 10 nm with exact periodicity. This can be done by using the parabolic minima of the potential generated by a standing light wave as focusing lenses. To achieve the desired 10-nm resolution, we need to suppress chromatic and spherical aberrations, as well
The National Academy of Sciences.