M. B. Hopkins scite author profile

A retarding field energy analyzer designed to measure ion energy distributions impacting a radio-frequency biased electrode in a plasma discharge is examined. The analyzer is compact so that the need for differential pumping is avoided. The analyzer is designed to sit on the electrode surface, in place of the substrate, and the signal cables are fed out through the reactor side port. This prevents the need for modifications to the rf electrode--as is normally the case for analyzers built into such electrodes. The capabilities of the analyzer are demonstrated through experiments with various electrode bias conditions in an inductively coupled plasma reactor. The electrode is initially grounded and the measured distributions are validated with the Langmuir probe measurements of the plasma potential. Ion energy distributions are then given for various rf bias voltage levels, discharge pressures, rf bias frequencies--500 kHz to 30 MHz, and rf bias waveforms--sinusoidal, square, and dual frequency.

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Langmuir probe technique for plasma parameter measurement in a medium density discharge

Hopkins¹,

Graham²

1986

179

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The development of a microcomputer-controlled electrostatic probe as a diagnostic technique is described. The technique uses cylindrical probes and the definitive theory of Laframboise to give rapid measurements of the plasma parameters in a medium density (1010 to 1012 cm−3) plasma including the fast electron density and temperature. The iterative technique described overcomes many of the problems associated with established methods of Langmuir probe analysis.

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Anomalous sheath heating in a low pressure rf discharge in nitrogen

1992

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Heating Mode Transition Induced by a Magnetic Field in a Capacitive rf Discharge

et al. 1996

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Characterization of an asymmetric parallel plate radio-frequency discharge using a retarding field energy analyzer

Gahan

Daniels

Hayden

et al. 2011

Plasma Sources Sci. Technol.

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A retarding field energy analyzer is used to characterize an asymmetric, 13.56 MHz driven, capacitively coupled, parallel plate discharge operated at low pressure. The characterization is carried out in argon discharges at 10 and 20 mTorr where the sheaths are assumed to be collisionless. The analyzer is set in the powered electrode where the impacting ion and electron energy distributions are measured for a range of discharge powers. A circuit model of the discharge is used to infer important electrical parameters from the measured energy distributions, including electrode excitation voltages, plasma potential and sheath potentials. Analytical models of the ion energy distribution in a radio-frequency sheath are used to determine plasma parameters such as sheath width, ion transit time, electron temperature and ion flux. A radio-frequency compensated Langmuir probe is used for comparison with the retarding field analyzer measurements.

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M. B. Hopkins

Retarding field analyzer for ion energy distribution measurements at a radio-frequency biased electrode

Langmuir probe technique for plasma parameter measurement in a medium density discharge

Anomalous sheath heating in a low pressure rf discharge in nitrogen

Heating Mode Transition Induced by a Magnetic Field in a Capacitive rf Discharge

Characterization of an asymmetric parallel plate radio-frequency discharge using a retarding field energy analyzer

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