Langmuir probe diagnostic studies of pulsed hydrogen plasmas in planar microwave reactors

Rousseau, Antoine; Teboul, Eric; Lang, N.; Hannemann, M.; Röpcke, J.

doi:10.1063/1.1497454

Cited by 23 publications

(25 citation statements)

References 35 publications

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“…To determine radial distributions for T e measurement corrections, we inserted equations (2)-(5) into the equation (6), which resulted in the following expressions: (7), (8) and (9), we obtained similar measurement correction dependencies for the remaining three plasma parameters, n e , V s , and j es as graphically shown in figures 5-7. According to these dependencies, errors in T e measurements reached about 7%, for n e -up to 14%, for V s -up to 20%, and for j es -up to 28 %.…”

Section: Correction Of Measurement Results Obtained By the Main Probe-1mentioning

confidence: 95%

“…Therefore, in this situation, plasma state could hardly feel the presence of a probe in plasma. That is why probe leads were usually surrounded by bare metal shields to protect them against RF interferences [5,6]. According to our previous works, where the behavior of large conducting bodies immersed in plasma was analyzed qualitatively, it was found that such bodies self consistently acquired single plasma floating potential at the point close to the minimal floating potential beside the body.…”

Section: Figurementioning

confidence: 99%

“…Usually real scale of this phenomenon was considered to be rather low when metal shields shortcircuited rather small plasma potential differences and collected currents that were much less than the discharge currents which could hardly influence plasma state. That is why probe leads are usually protected by bare metal shields against RF interferences [5,6].…”

Section: Introductionmentioning

confidence: 99%

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Elevating the Precision of Plasma Probe Diagnostics by Elimination of Bare Probe Protective Shields’ Influence

2017

JCERP

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Probe diagnostics of the low pressure inductive xenon plasma were conducted using classic cylindrical Langmuir probes with conventional protection of their circuits against radio frequency interferences by bare metal shields. The dimensions of their probetips were determined in the special experiment that provided negligible local plasma distortions. Accurate probe measurements were used to determine the spatial plasma parameter distributions in a gas discharge unit of an ion thruster model which helped to develop its ion-extracting grate. The subsequent analysis of probe measurements showed that in these experiments, the plasma electron energy distribution function (EEDF) was quite noticeably deviated from the Maxwell function depending on the main probe shield length that varied from maximum to zero. Use of an additional probe in the special position where its shield was rather long with zero shield length of the main probe showed that the additional shield lowered all plasma parameters. Comparison of both probes’ data identified the principled relationship between measurement errors and EEDF distortions caused by bare probe shield and this dependence was used to correct the initial probe measurements. Therefore plasma probe diagnostics became more precise due to the lowered influence of the bare probe protective shields. Its physical analysis based on previous authors’ works showed that this effect was caused by a shortcircuited double-probe phenomenon in the bare metal shields.

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Section: Correction Of Measurement Results Obtained By the Main Probe-1mentioning

confidence: 95%

Section: Figurementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Elevating the Precision of Plasma Probe Diagnostics by Elimination of Bare Probe Protective Shields’ Influence

2017

JCERP

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“…It was reported that ordinary probes containing metal tip inside dielectric capillary do not provide reliable results in microwave plasma since they were strongly perturbed by the electromagnetic field of the microwave. 19 Therefore, shielded probes, made from solid coaxial rod that was comprised of an external copper layer on a floating potential surrounding its inner 2-mm radius dielectric and a 1-mm radius metal core, were utilized. The metal tip of the probe that was exposed to the plasma was made from a nickel-chromium (Ni-Cr) alloy spot welded to the inner metal core of the solid coaxial rod.…”

Section: Plasma Reactor and Probe Systemmentioning

confidence: 99%

Plasma Parameter Analysis During Nano-Crystalline Diamond Growth Using Automated Langmuir Probe

Paosawatyanyong¹,

Thitianan²,

Bhanthumnavin³

et al. 2015

j comput theor nanosci

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The present work addresses an important issue in micro-and nano-crystalline diamond (MCD/NCD) synthesized in microwave plasma assisted chemical vapor deposition system (MPCVD) which is the real-time monitoring of plasma parameters during the growth process. A computer controlled bipolar source-meter instrument was setup as a voltage source for the electrostatic Langmuir probe current measurement. Algorithms have been developed to obtain plasma parameters including plasma potential, density and temperature from the measurement in real-time. The accuracy of the automated algorithm was determined using simulated plasma characteristic data based on Maxwellian's distribution with one single electron temperature. In the analysis of the actual experimentally data acquired during typical gas discharges, the algorithms performed well and yield parameters values with good agreement to the values obtained by other non real-time methods. Utilizing the automated probe during the MCD/NCD growth process, the real-time analytical results show a splitting of two electron populations. The co-existence of two electron temperatures in the MCD/NCD MPCVD growth process reported here has not been previously investigated.

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“…Plasma diagnostic, allowing to identify transient species, as well as stable products and other properties involved in plasma processing, has become a powerful method to understand the mechanisms which ultimately lead to the growth of films of the most diverse characteristics [19][20][21]. The diagnostic is mainly carried out with spectroscopic techniques like visible emission of excited species [6,[22][23][24][25] or infrared absorption of molecular bands [7,[26][27][28][29][30]; by mass spectrometry of neutrals [1][2][3]6,31,32] and ions [33][34][35], and with Langmuir probes [36,37].…”

Section: Introductionmentioning

confidence: 99%

Plasma diagnostics and device properties of AlGaN/GaN HEMT passivated with SiN deposited by plasma-enhanced chemical vapour deposition

Romero¹,

Sanz²,

Tanarro³

et al. 2010

J. Phys. D: Appl. Phys.

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In this work, silicon nitride thin films have been deposited by Plasma Enhanced Chemical Vapour Deposition (PECVD) on both silicon samples and AlGaN/GaN High Electron Mobility Transistors (HEMT) grown on sapphire substrates. Commercial parallel-plate RF plasma equipment has been used. During depositions, the dissociation rates of SiH 4 and NH 3 precursors and the formation of H 2 and N 2 have been analysed by mass spectrometry as a function of the NH 3 /SiH 4 flow ratio and the RF power applied to the plasma reactor. Afterwards, the properties of the films and the HEMT electrical characteristics have been studied. Plasma composition has been correlated with the SiN deposition rate, refractive index, H content and the final electric characteristics of the passivated transistors.

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Langmuir probe diagnostic studies of pulsed hydrogen plasmas in planar microwave reactors

Cited by 23 publications

References 35 publications

Elevating the Precision of Plasma Probe Diagnostics by Elimination of Bare Probe Protective Shields’ Influence

Elevating the Precision of Plasma Probe Diagnostics by Elimination of Bare Probe Protective Shields’ Influence

Plasma Parameter Analysis During Nano-Crystalline Diamond Growth Using Automated Langmuir Probe

Plasma diagnostics and device properties of AlGaN/GaN HEMT passivated with SiN deposited by plasma-enhanced chemical vapour deposition

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