Optical computerized tomography of the E-H transition in inductively coupled plasmas in Ar and Ar-CF₄mixtures

Abstract: We have applied optical emission spectroscopy together with computerized tomography (CT) to study the transition between E and H modes in inductively coupled plasma. Measurements were performed in pure Ar and in CF4(5%)/Ar mixture in the pressure range between 5 and 300 mTorr. It was found that the radial and azimuthal CT images of the E (capacitively coupled) mode are quite different from those of the H (inductively coupled) mode. The E mode structures show clearly the presence of capacitive coupling, while t… Show more

“…The stepped increase in emission intensity and the hysteresis effect above about 50 mTorr ͑6.7 Pa͒ is typical of previously reported E -H transitions and hysteresis in ICPs. 5,7,8 When the plasma power ͑P p ͒ dependence on the applied power ͑P a ͒ is explored ͑not shown͒, it is found that for small applied powers, the rate of increase of P p is much slower than P a until about 25 W, where a discontinuity occurs, P p jumps, and the rate of further increase in P p is similar to that of P a with a slope of nearly one. The discontinuity in the graph occurs in the vicinity of the E -H mode transition and hysteresis seen in the plasma emission measurements ͑Fig.…”

Plasma power measurement and hysteresis in the E–H transition of a rf inductively coupled plasma system

“…The stepped increase in emission intensity and the hysteresis effect above about 50 mTorr ͑6.7 Pa͒ is typical of previously reported E -H transitions and hysteresis in ICPs. 5,7,8 When the plasma power ͑P p ͒ dependence on the applied power ͑P a ͒ is explored ͑not shown͒, it is found that for small applied powers, the rate of increase of P p is much slower than P a until about 25 W, where a discontinuity occurs, P p jumps, and the rate of further increase in P p is similar to that of P a with a slope of nearly one. The discontinuity in the graph occurs in the vicinity of the E -H mode transition and hysteresis seen in the plasma emission measurements ͑Fig.…”

Plasma power measurement and hysteresis in the E–H transition of a rf inductively coupled plasma system

“…7 Recently, the effect of a change in the ionization mechanisms of the discharge, between direct ionization from the ground state and stepwise ionization through metastable states, on the mode transitions and the accompanying hysteresis was discussed for argon discharges. [8][9][10] However, the mechanisms behind the mode transitions are still not well understood, and the established models are not yet sophisticated enough to predict the transition behavior in detail. For example, unknown temporal structures in the transition dynamics were observed recently 11 which show that considerable further research is required to fully understand the discharge operation in the mode transition region.…”

Electron energy distribution function close to the mode transition region in an inductively coupled gaseous electronics conference reference cell

“…(6) and of the ohm resistance in Eq. (8). J s ðrÞ in the sheath width equation indeed varies radially.…”

“…6 As is well known, two discharge modes exist in typical reactors, i.e., the capacitive E mode at low density and the inductive H mode at high density. [7][8][9][10][11][12][13][14] Either continuous or abrupt transitions between the two discharge modes can be triggered by varying the applied power or the matching status of the circuit. We also note that the mode transitions of these bi-stable discharges in ICP and microwave plasmas 15 exhibit hysteresis, and several mechanisms have been proposed to explain the presence of hysteresis, including nonlinear behavior in the plasma and the circuit, the effects of impedance matching, and power loss in the external circuit.…”

Equivalent circuit effects on mode transitions in H2 inductively coupled plasmas