YP Song scite author profile

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Electrical potentials in RF discharges

Song¹,

Field²,

Klemperer³

1990

J. Phys. D: Appl. Phys.

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A theory is presented of the electrical nature of capacitatively coupled RF discharges of the type commonly encountered in microcircuit fabrication. Using arguments bearing on ion and electron fluxes associated with the cathode and anode, an expression is developed relating the ratio of the DC self-bias, VDC, and the applied RF voltage, V0, to the relative electrode areas, and a formula is given for the plasma potential. Good agreement is achieved for a range of experimental data of V0, VDC and plasma potential and the observed relationship in the work of Coburn and Kay (1972) between the ratio of the sheath voltages and the electrode area ratio is convincingly reproduced. The theory promises considerable predictive power which may be of value for the design of RF reactors, especially with regard to the control of ion impact energies at substrate surfaces.

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Ion energy distributions in radio-frequency discharges

Field

Klemperer

May

et al. 1991

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Using a theoretical description of potentials in radio-frequency (rf) discharges reported elsewhere [Song, Field, and Klemperer, J. Phys. D: Appl. Phys. 23, 673 (1990)] we derive the equations of motion for ions from the plasma region striking the cathode and anode in the absence of collisions in the sheath. We compute ion energy distributions (IEDs) which we find to be in excellent agreement with recent experimental data for Ar, Ar/H, mixtures, O,, and CF, parent gases. We also present a method of estimating IEDs which does not involve extensive computation, a development of particular value in the design of reactive ion etching processes.

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Quantitative analysis of elastic strains in GaAs/AlAs quantum dots

Darhuber

Holý

Bauer

et al. 1996

Physica B: Condensed Matter

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X-ray reciprocal space mapping of GaAs/AlAs quantum wires and quantum dots

Darhuber

Koppensteiner

Bauer

et al. 1995

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YP Song

Elastic strains in GaAs/AlAs quantum dots studied by high-resolution x-ray diffraction

Electrical potentials in RF discharges

Ion energy distributions in radio-frequency discharges

Quantitative analysis of elastic strains in GaAs/AlAs quantum dots

X-ray reciprocal space mapping of GaAs/AlAs quantum wires and quantum dots

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