The electron dynamics and the mechanisms of power absorption in radio-frequency (RF) driven, magnetically enhanced capacitively coupled plasmas (MECCPs) at low pressure are investigated. The device in focus is a geometrically asymmetric cylindrical magnetron with a radially nonuniform magnetic field in axial direction and an electric field in radial direction. The dynamics is studied analytically using the cold plasma model and a single-particle formalism, and numerically with the inhouse energy and charge conserving particle-in-cell/Monte Carlo collisions code ECCOPIC1S-M. It is found that the dynamics differs significantly from that of an unmagnetized reference discharge. In the magnetized region in front of the powered electrode, an enha...
We used helical antenna-coupled radio frequency (RF) plasmas to study the evolution of the mode tran...
Today, partially magnetized low-temperature plasmas (LTP) in an ExB configuration, where the applied...
Radio frequency (RF) inductively coupled plasma (ICP) have been known and studied for over a century...
The present work investigates electron transport and heating mechanisms using an (r, z) particle-in-...
In atmospheric-pressure plasmas the main electron heating mechanism is Ohmic heating, which has dist...
In modern low pressure plasma discharges, the electron mean free path often exceeds the device dimen...
The effect of changing the driving frequency on the plasma density and the electron dynamics in a ca...
We investigate the electron heating dynamics in electropositive argon and helium capacitively couple...
Abstract We investigate the electron heating dynamics in electropositive argon and helium capacitive...
Low pressure capacitive radio frequency (RF) plasmas are often described by equivalent circuit model...
The influence of a uniform magnetic field parallel to the electrodes on radio frequency capacitively...
Heating mechanisms and particle flow balancing of capacitively coupled plasmas driven by combined dc...
A radio frequency (rf) plasma is created at low pressure (∼1 mTorr) in the source tube of a “helicon...
Many of today’s processing plasma tools are operated at low pressures to achieve high etch directivi...
International audienceOptimizing and controlling electron energy distributions (EEDs) is a continuin...
We used helical antenna-coupled radio frequency (RF) plasmas to study the evolution of the mode tran...
Today, partially magnetized low-temperature plasmas (LTP) in an ExB configuration, where the applied...
Radio frequency (RF) inductively coupled plasma (ICP) have been known and studied for over a century...
The present work investigates electron transport and heating mechanisms using an (r, z) particle-in-...
In atmospheric-pressure plasmas the main electron heating mechanism is Ohmic heating, which has dist...
In modern low pressure plasma discharges, the electron mean free path often exceeds the device dimen...
The effect of changing the driving frequency on the plasma density and the electron dynamics in a ca...
We investigate the electron heating dynamics in electropositive argon and helium capacitively couple...
Abstract We investigate the electron heating dynamics in electropositive argon and helium capacitive...
Low pressure capacitive radio frequency (RF) plasmas are often described by equivalent circuit model...
The influence of a uniform magnetic field parallel to the electrodes on radio frequency capacitively...
Heating mechanisms and particle flow balancing of capacitively coupled plasmas driven by combined dc...
A radio frequency (rf) plasma is created at low pressure (∼1 mTorr) in the source tube of a “helicon...
Many of today’s processing plasma tools are operated at low pressures to achieve high etch directivi...
International audienceOptimizing and controlling electron energy distributions (EEDs) is a continuin...
We used helical antenna-coupled radio frequency (RF) plasmas to study the evolution of the mode tran...
Today, partially magnetized low-temperature plasmas (LTP) in an ExB configuration, where the applied...
Radio frequency (RF) inductively coupled plasma (ICP) have been known and studied for over a century...