Time-resolved measurements of highly polymerized negative ions in radio frequency silane plasma deposition experiments

Howling, A.A.; Sansonnens, L.; Dorier, J.‐L.; Hollenstein, Ch.

doi:10.1063/1.356413

Cited by 154 publications

(102 citation statements)

References 67 publications

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“…Based on ions growth rate in silane discharges (Howling et al, 1994;Perrin et al, 1994), the rate coefficient for these reactions is set to 10 -12 cm 3 s -1 .…”

Section: Polymerization Reactionsmentioning

confidence: 99%

Negative ion chemistry in Titan's upper atmosphere

Vuitton

Lavvas

Yelle

et al. 2009

Planetary and Space Science

256

255

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“…Based on ions growth rate in silane discharges (Howling et al, 1994;Perrin et al, 1994), the rate coefficient for these reactions is set to 10 -12 cm 3 s -1 .…”

Section: Polymerization Reactionsmentioning

confidence: 99%

Negative ion chemistry in Titan's upper atmosphere

Vuitton

Lavvas

Yelle

et al. 2009

Planetary and Space Science

256

255

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“…Previous works show a clear correlation between the pulse frequency and the appearance of dust. 31,32 We will focus in this article on the influence of the pulse frequency on the dust formation in a capacitively coupled rf discharge operated in a mixture of argon and acetylene. The experimental results will be discussed by means of a simple model that deals with the formation of negative ions in a pulsed discharge.…”

Section: Introductionmentioning

confidence: 99%

Controlled dust formation in pulsed rf plasmas

Berndt

Kovačević

Stefanović

et al. 2009

Journal of Applied Physics

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This paper deals with the formation of nanoparticles in a pulsed discharge. Experiments are performed in a capacitively coupled discharge operated in a mixture of argon and acetylene. The paper focuses especially on the influence of the pulse frequency on the dust formation. The experiments reveal the existence of a rather narrow frequency band that separates a frequency region with no dust formation from a frequency region where dust formation occurs. The decisive point in the observations is that a small change in the pulse frequency (from 700 to 725 Hz) is enough to induce or, respectively, suppress the formation of dust particles. The experimental results are discussed by means of a simple model that allows one to calculate the density of negative ions (C2H−, C4H−, etc.) as a function of the pulse frequency.

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“…This can be achieved using square-wave pulses with periods from 10 to 100 μs [10]- [12]. Furthermore, it has been seen that quality of the deposited thin films is improved and dust particles in the plasma chamber is reduced with the application of RF signal when it is presented in the form of PWM signal instead of continuous signal [13], [14]. The demand to improve the process quality in semiconductor fabrication led to the design and implementation of amplifiers with high-power pulsing capability.…”

Section: Introductionmentioning

confidence: 99%

Phase Controlled Class E Amplifier Characteristics for Pulsing Applications

Eroğlu

2014

IEEE Trans. Plasma Sci.

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Phase controlled Class E amplifiers for high-power plasma pulsing applications are analyzed and their characteristics for pulsing applications are simulated and measured. Harmonic modeling is used to design the phase controlled Class E type amplifiers for plasma pulsing applications, and analytical, simulation, and experimental results are presented. The parameters that affect pulsing characteristics of the phase-controlled Class E amplifiers, including power capacity and thermal characteristics using die dissipation versus pulse frequency are given. Safe operating area of the active devices used in amplifier is simulated and tested for reliable operation. Phase controlled Class E amplifier capacity for ON/OFF pulsing, and 2-level nonzero pulsing for matched and mismatch loads for various cases have been investigated, and critical RF envelope pulsing parameters, such as rise time, fall time, settling time have been studied extensively. Analytical, simulated, and experimental results have been compared and close agreement has been seen.

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Time-resolved measurements of highly polymerized negative ions in radio frequency silane plasma deposition experiments

Cited by 154 publications

References 67 publications

Negative ion chemistry in Titan's upper atmosphere

Negative ion chemistry in Titan's upper atmosphere

Controlled dust formation in pulsed rf plasmas

Phase Controlled Class E Amplifier Characteristics for Pulsing Applications

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