The Effect of Discharge Chamber Geometry on the Characteristics of Low-Pressure RF Capacitive Discharges

Lisovskiy, Valeriy; Booth, Jean‐Paul; Landry, K.; Douai, D.; Cassagne, V.; Yegorenkov, Vladimir

doi:10.1109/tps.2007.893261

Cited by 6 publications

(5 citation statements)

References 42 publications

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“…As is known [4,9,[25][26][27][28][29][30][31][32][33][34][35], a rf capacitive discharge may burn in two different modes: a weak-current (a-) and strong-current (gmode). In the a-mode the electrons acquire their energy for ionizing gas atoms in the rf field in the quasi-neutral plasma, the electron emission from the surface of the electrodes not playing a substantial role in the discharge sustainment.…”

Section: Discussionmentioning

confidence: 99%

“…In so doing we use the values of the electron temperature determined from the probe CVCs (employing the linear section of the graph of the electron current to the probe constructed to the semi-logarithmic scale). [4,9,[25][26][27][28][29][30][31][32][33][34][35] of the rf discharge (the curve for U rf ¼ 50 V, p ¼ 0.1 Torr and the curves for U rf ¼ 100 and 165 V, p ¼ 1 Torr) counting from the discharge axis, the electron temperature first remains constant or increases weakly. However on approaching the wall of the discharge tube the electron temperature T e increases abruptly, its maximum value exceeding T e near the discharge axis almost more than twice.…”

Section: Langmuir Probe Measurements Descriptionmentioning

confidence: 99%

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Radial structure of low pressure rf capacitive discharges

Lisovskiy

Kharchenko

Yegorenkov

2010

Vacuum

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a b s t r a c tThis paper studies the glow intensity distribution of the discharge plasma against the tube radius and reports the radial profiles of electron temperature and plasma concentration in the rf capacitive discharge registered with a Langmuir probe. An abrupt increase of electron temperature and glow intensity near the tube wall in the weak-current a-mode of the rf capacitive discharge is revealed, the radial distribution of plasma concentration and ion flow to the electrodes possessing a maximum near the radial sheath boundary. In the g-mode of the rf capacitive discharge the electron temperature decrease in the total plasma volume leads to an electric field weakening and the peak of the glow intensity near the tube wall vanishes. The radial sheath thickness in the a-mode of the rf capacitive discharge obtained with 2D simulation experiences pulsations during the rf field period, the changing radial electric field heating electrons and increasing the plasma concentration near the boundary of the radial sheath.

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Section: Discussionmentioning

confidence: 99%

Section: Langmuir Probe Measurements Descriptionmentioning

confidence: 99%

Radial structure of low pressure rf capacitive discharges

Lisovskiy

Kharchenko

Yegorenkov

2010

Vacuum

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“…The normal regime can be clearly observed in the experimental CVCs of low-pressure rf discharges in argon, oxygen and N 2 O in [16][17][18][19][20], but the authors of these papers did not study it in detail. Godyak et al [16,17] presented CVCs of an rf discharge at different argon pressure values, where at small discharge current values and pressure values above 1 Torr one can observe a section relating to the normal regime (without indicating it in the text).…”

Section: Introductionmentioning

confidence: 99%

“…However, the authors of [19] did not perform detailed measurements of the normal current density and did not give a theoretical description of the normal regime. The authors of [20] limited themselves to the indication of the existence of the weakcurrent mode normal regime in a symmetric rf discharge and an asymmetric unconfined chamber configuration.…”

Section: Introductionmentioning

confidence: 99%

Normal regime of the weak-current mode of an rf capacitive discharge

Lisovskiy¹,

Yegorenkov²,

Artushenko³

et al. 2012

Plasma Sources Sci. Technol.

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This paper studies the normal and abnormal regimes of a weak-current rf discharge in ammonia, nitrogen, hydrogen and N 2 O for the rf electric field frequencies of 13.56 and 27.12 MHz. We reveal that only the abnormal regime of burning is observed at low pressures when the current growth is accompanied by an rf voltage increase while the surface of the electrodes is completely covered with the discharge. The normal regime occurs at higher gas pressures when the current growth is due to the increase in the surface area occupied by the discharge on the electrodes. The discharge burns in the abnormal mode after the surface of the electrodes is completely covered with the discharge. We demonstrate that the normal current density is directly proportional to the gas pressure and it depends approximately on the square of the rf electric field frequency. We present an analytical model for two limiting cases: constant free path length and constant mobility of positive ions furnishing a satisfactory description of the experimental data.

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“…There are two type of CCPs RF discharge, symmetric discharge include two identical electrodes [5,6], whilst in asymmetric discharge systems the plasma formed between two unequal electrodes area, later create a dc voltage appears as a result for the different in electron and ion mobility, this attributes to the different mass between them. Some research study the influence of the geometry design on the characteristics of CCP discharge with different gases as well as observed by using the different electrodes area ratio which play important role in dcself bias [7][8][9][10]. Gottscho et al, [8] showed that the discharge structure in CCP system contains the layers sandwiches (sheathplasma-sheath) usually formed with frequency well known 13.56 MHz in Argon plasma and the two sheaths at both of the two electrodes discharge can be described as a pure capacitive properties, in addition to this study gave very important results about the effects in the CCP discharge when using a different electrodes area ratio.…”

Section: Introductionmentioning

confidence: 99%

Influence of electrodes area ratios and the discharge volume in RF capacitively coupled plasma

Ahmad¹

2019

IJP

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Experimental results on harmonic distortions in 13.56 MHz RF Argon glow discharge using different grounded electrodes areas and electrodes spacing are presented. The experiment is carried out at four pressure values. RF power values used are between 20 and 90 watts. The results indicate significant increase in distortions at two specific values of the cone angle enclosing the two electrodes within its geometrical volume. The computation of the cone head angle gave the symmetry discharge or asymmetry as well as when the angle is small the condition is near symmetry discharge associated with decrease in the nonlinearity.

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The Effect of Discharge Chamber Geometry on the Characteristics of Low-Pressure RF Capacitive Discharges

Cited by 6 publications

References 42 publications

Radial structure of low pressure rf capacitive discharges

Radial structure of low pressure rf capacitive discharges

Normal regime of the weak-current mode of an rf capacitive discharge

Influence of electrodes area ratios and the discharge volume in RF capacitively coupled plasma

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