Multipactor discharge on a dielectric surface in the field of circularly polarized plane waves

Buyanova, M.; Nechaev, V. E.; Semenov, V. E.

doi:10.1007/s11141-007-0083-z

Cited by 15 publications

(8 citation statements)

References 22 publications

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“…In this paper, we present a statistical theory of multipactor discharge on a dielectric exposed to circularly polarized rf field extending available theoretical treatment proposed for the constant emission velocity model. 8,9 The most striking difference between the statement considered and earlier studies of discharge driven by linearly polarized plane wave consists in the absence of rf phase dependence on transit time and impact energy, so that the discharge will be polyphase at all the stages. Our main interest is to obtain the multipacting discharge cutoff conditions and the saturation level including the effects of rf magnetic field and partial reflection of the incident electromagnetic wave.…”

Section: Introductionmentioning

confidence: 94%

“…In this context, it should be noted that analysis of the effect of the action of spatially inhomogeneous electromagnetic field on the multipactor development was undertaken by Buyanova et al 8,9 who have employed the dynamic approach. In this paper, we present a statistical theory of multipactor discharge on a dielectric exposed to circularly polarized rf field extending available theoretical treatment proposed for the constant emission velocity model.…”

Section: Introductionmentioning

confidence: 99%

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Effects of rf magnetic field and wave reflection on multipactor discharge on a dielectric

Sazontov

Nevchaev

2010

Physics of Plasmas

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This paper analyzes the effects of the rf magnetic field and partial reflection of the circularly polarized electromagnetic wave on multipactor discharge on a dielectric. A statistical theory ͑taking into account the velocity spread of injected electrons͒ is constructed to evaluate the multipactor induced breakdown and saturation level. It is concluded that the spread of initial velocities considerably changes the condition for multipactor initiation in comparison with the dynamic approach. This effect is especially strong for the case of relatively low rf electric field amplitude ͑when the transit time essentially exceeds the rf period͒ and leads to the oscillation suppression of effective electron yield and to an increase in the threshold of multipactor growth. It is established that the rf magnetic field eliminates the upper boundary of the susceptibility diagram, while the low boundary almost remains unchanged. It is also found that the presence of partial reflection causes degradation of the saturation level ͑in comparison with the nonreflecting case͒ and results in decreasing of the characteristic time required to achieve the steady state.

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Section: Introductionmentioning

confidence: 94%

Section: Introductionmentioning

confidence: 99%

Effects of rf magnetic field and wave reflection on multipactor discharge on a dielectric

Sazontov

Nevchaev

2010

Physics of Plasmas

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“…This type of discharge is an undesirable phenomenon in many practical microwave applications and the intense study of this phenomenon during the last decades has mainly been stimulated by the necessity to be able to accurately predict the multipactor threshold in different microwave subsystems. [1][2][3][4][5] These studies have resulted in development of various numerical tools capable of simulating multipactor in different geometries including parallel plates, 6,7 coaxial cables, [8][9][10] dielectric windows, [11][12][13] rectangular and wedge-shaped waveguides, [14][15][16] microstrip lines, 17 waveguide irises, [18][19][20] and rf filters and transformers. [21][22][23] A notable exception is multipactor breakdown in circular waveguides, which has been given scant interest, in spite of its technical importance.…”

Section: Introductionmentioning

confidence: 99%

Simulations of multipactor in circular waveguides

et al. 2010

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Detailed numerical simulations have been done to investigate the properties of multipactor breakdown in circular waveguides operating in the propagating fundamental TE11 mode. Main attention has been given to a comparison between the two fundamental cases corresponding to linear and circular polarizations, respectively, of the propagating electromagnetic wave. It is found that circular polarization is considerably more susceptible to multipactor than linear polarization. The reason for this difference is clarified by a comprehensive study of the electron motion in the waveguide.

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“…It was shown in [16,17] theoretically and experimentally that multipactor can take place on a dielectric surface in strong electromagnetic fields even in the absence of external static fields, since an inhomogeneous microwave field can by itself ensure the return of the emitted electrons to the surface. Indeed, in an inhomogeneous microwave field, an electron is affected by the averaged ponderomotive force F , which is proportional to the gradient of the rf electric field [18].…”

mentioning

confidence: 99%

“…$ 150-200 ns. The effect of the inhomogeneous microwave field on the multipactor was studied in detail in [16,17].…”

mentioning

confidence: 99%

Suppressing and initiation of multipactor discharge on a dielectric by an external dc bias

Иванов

Lobaev

Исаев

et al. 2010

Phys. Rev. ST Accel. Beams

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The results of studying experimentally the influence of an external dc electric field on the multipactor threshold on the surface of a dielectric (quartz) are presented. In the experiments, a high-Q-factor microwave resonator was excited at the TE 012 mode in the 3-cm wavelength band. The dependence of the breakdown threshold on the value and direction of the electrostatic field is determined. It is found that the external dc field repulsing the electrons from the dielectric surface increases the threshold significantly, whereas the field attracting the electrons decreases it. It is shown that one can manage the multipactor efficiently, namely suppress or initiate it, by changing the direction and intensity of the dc field.

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Multipactor discharge on a dielectric surface in the field of circularly polarized plane waves

Cited by 15 publications

References 22 publications

Effects of rf magnetic field and wave reflection on multipactor discharge on a dielectric

Effects of rf magnetic field and wave reflection on multipactor discharge on a dielectric

Simulations of multipactor in circular waveguides

Suppressing and initiation of multipactor discharge on a dielectric by an external dc bias

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