R. Pantel scite author profile

Long quiescent, stable and reproducible cylindrical plasma columns can be obtained as a result of the propagation of electromagnetic surface waves. The frequency of these waves is of the order of the electron-plasma frequency and it lies in that part (≃ 300-4 000 MHz) of the microwave spectrum where power generators with large enough output powers are readily available, at reasonable cost. Moreover, these waves can be excited very efficiently by using appropriate launching structures such as the surfatron. Such plasmas can, in certain instances, advantageously replace the positive column of DC discharges. This paper reviews the properties of the plasma columns sustained by the azimuthally symmetric surface wave. Special attention is given to the radial and axial electron density distributions, as well as to the radial density distributions of excited (radiative and metastable) atoms. Some demonstrated applications as well as further potential applications are also presented

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Strain measurements by convergent-beam electron diffraction: The importance of stress relaxation in lamella preparations

Clément

Pantel

Kwakman

et al. 2004

154

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Articles you may be interested inConvergent beam electron diffraction measurements of relaxation in strained silicon using higher order Laue zone line splitting J. Appl. Phys. 105, 063526 (2009); 10.1063/1.3093693 Direct strain measurement in a 65 nm node strained silicon transistor by convergent-beam electron diffraction Nanoscale strain analysis of strained-Si metal-oxide-semiconductor field effect transistors by large angle convergent-beam electron diffraction Appl. Phys. Lett. 88, 263513 (2006); 10.1063/1.2217136 Convergent beam electron diffraction investigation of strain induced by Ti self-aligned silicides in shallow trench Si isolation structures J. Appl. Phys. 99, 064504 (2006); 10.1063/1.2179136 Strain analysis in silicon substrates under uniaxial and biaxial stress by convergent beam electron diffraction

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Axial electron density and wave power distributions along a plasma column sustained by the propagation of a surface microwave

et al. 1980

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The propagation of electron surface waves can be used to sustain long plasma columns. The relation between the axial distribution of the electron density observed along the plasma column and the corresponding power distribution of the surface wave that produces it is investigated. It is found that the electron density decreases almost linearly along the plasma column in the direction of the wave propagation. This is explained by assuming that the number of electrons produced over a given axial length is proportional to the wave power absorbed over that same length.

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The theory and characteristics of an efficient surface wave launcher (surfatron) producing long plasma columns

Moisan

Zakrzewski

Pantel

1979

J. Phys. D: Appl. Phys.

188

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Long plasma columns, in many instances preferable to the positive columns of DC discharges, can be obtained by means of a UHF surface wave propagating along the column. This is possible through the use of a novel wave-launching structure, called a surfatron. The launcher is compact and located on the outside of the dielectric tube containing the plasma. The surfatron is described and analysed in terms of an equivalent circuit theory. Guidelines for its design and operation are given.

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A Waveguide-Based Launcher to Sustain Long Plasma Columns through the Propagation of an Electromagnetic Surface Wave

Moisan

Zakrzewski

Pantel³

et al. 1984

IEEE Trans. Plasma Sci.

111

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R. Pantel

Properties and applications of surface wave produced plasmas

Strain measurements by convergent-beam electron diffraction: The importance of stress relaxation in lamella preparations

Axial electron density and wave power distributions along a plasma column sustained by the propagation of a surface microwave

The theory and characteristics of an efficient surface wave launcher (surfatron) producing long plasma columns

A Waveguide-Based Launcher to Sustain Long Plasma Columns through the Propagation of an Electromagnetic Surface Wave

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