D.R. Drozdov scite author profile

D.R. Drozdov

2Publications

78Citation Statements Received

35Citation Statements Given

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Radio-frequency discharges in oxygen: II. Spatio-temporally resolved optical emission pattern

Dittmann¹,

Drozdov²,

Krames³

et al. 2007

J. Phys. D: Appl. Phys.

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Axially and temporally resolved optical emission structures were investigated in the rf sheath region of a parallel plate capacitively coupled rf discharge (13.56 MHz) in pure oxygen and tetrafluoromethane. The rf discharge was driven at total pressures of between 10 and 100 Pa, gas flow rate of 3 sccm and rf power in the range 5–100 W. In particular, the emission of the atomic oxygen at 844.6 nm (3p3P → 3s3S0) and the atomic carbon at 193 nm (3s1P0 → 2p1D) were imaged with a lens onto the entrance slit of a spectrometer and detected by a fast ICCD-camera. The spatio-temporally resolved analysis of the emission intensity during the rf cycle (73.75 ns) provides two significant excitation processes inside the rf sheath: the electron impact excitation at the sheath edge, and heavy particle impact excitation in front of the powered electrode. In oxygen plasma the emission of atomic oxygen was found in both regions whereas in tetrafluoromethane the emission of atomic carbon was observed only in front of the powered electrode. The experimental results reveal characteristic dependence of the emission pattern in front of the powered electrode on plasma process parameters (self-bias voltage, pressure) and allow an estimation of the excitation threshold energy and effective cross section of energetic heavy particle loss.

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Digital Identification of the Emission Spectrum Lines of Magnetron Discharge

Afanasieva¹,

Afanasiev²,

Bobkov³

et al. 2019

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D.R. Drozdov

Radio-frequency discharges in oxygen: II. Spatio-temporally resolved optical emission pattern

Digital Identification of the Emission Spectrum Lines of Magnetron Discharge

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