R. Udiljak scite author profile

R. Udiljak

5Publications

110Citation Statements Received

8Citation Statements Given

How they've been cited

232

104

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Affiliations

Chalmers University of Technology

Publications

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Multipactor in a coaxial transmission line. I. Analytical study

Udiljak

Anderson

Lisak

et al. 2007

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Theoretical considerations of the electron multipactor have mostly been restricted to the simplified case of plane-parallel geometry with a uniform field. However, a nonuniform field may not only affect the results quantitatively, but may also lead to qualitatively new effects. In the present work, the effects of a nonuniform radiofrequency field on the properties of multipactor initiation are analyzed in the case of a cylindrical coaxial transmission line. A useful approximate solution of the nonlinear differential equation of motion for the electrons is derived and simple analytical estimates are developed to show that in this system the multipactor mechanism becomes qualitatively different for sufficiently small inner coaxial radii. When the inner radius is of the order of the outer one, the multipactor properties are very similar to those of its counterpart in plane-parallel geometry. However, when the inner radius is less than a certain threshold value, single-surface multipactor becomes possible.

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Conformal mapping analysis of multipactor breakdown in waveguide irises

Semenov

Rakova

Udiljak

et al. 2008

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Multipactor breakdown in a single waveguide iris is analyzed using the quasistatic approximation for the spatial distribution of the rf field in the iris. Based on the conformal mapping approach, an analytical description is given of the rf field structure in the iris. It is shown that in the central part of any iris with a length to height ratio greater than approximately 0.5, the rf field structure is close to that between two parallel plates. The multipactor threshold for the iris is determined mainly by electron losses from the central part of the iris where the losses are due to the tangential component of the emission velocity of secondary electrons. The effective length of the iris central part is determined and an estimate of the multipactor threshold for the iris is found in terms of the conventional parameters: Applied rf voltage, product of rf frequency and iris height, and iris length to height ratio. Numerical simulations are also carried out using the exact analytical description of the quasistatic rf field and taking into account a spread of electron emission velocities.

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Multipactor in a Waveguide Iris

Udiljak

Anderson

Lisak

et al. 2007

IEEE Trans. Plasma Sci.

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Multipactor in a coaxial transmission line. II. Particle-in-cell simulations

Semenov

Zharova

Udiljak

et al. 2007

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The effects of nonuniform radiofrequency fields are analyzed for a cylindrical coaxial transmission line using a particle-in-cell code. The behavior predicted by the analytical analysis is confirmed by this study. In addition, by including an initial velocity spread and different maximum secondary electron yields, a more elaborate analysis is performed. It is found that in the case of high secondary emission, an increase in the spread of initial velocities results in an overlapping of the multipactor zones for both double and single sided multipactor. In the other case, when the secondary emission is low, a large enough initial velocity spread can lead to total suppression of the electron avalanche for the higher order modes. Comparison with available experimental data shows good agreement.

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New method for detection of multipaction

Udiljak

Anderson

Ingvarson

et al. 2003

IEEE Trans. Plasma Sci.

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R. Udiljak

Multipactor in a coaxial transmission line. I. Analytical study

Conformal mapping analysis of multipactor breakdown in waveguide irises

Multipactor in a Waveguide Iris

Multipactor in a coaxial transmission line. II. Particle-in-cell simulations

New method for detection of multipaction

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