Add to ORKGShort planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatio-temporal patterns. Several authors have suggested effective reaction-diffusion-models to explore similarities with other pattern forming systems. To test these effective models, we here investigate the temporal oscillations of a glow discharge layer coupled to a linear resistor. We find an unexpected cascade of period doubling events. This shows that the inner structure of the discharge is more complex than can be described by a reaction-diffusion-model with negative differential conductivity
International audienceDielectric barrier discharges (DBDs) operating in a glow regime exhibit a vari...
Abstract—Three-dimensional simulations of self-organization in dc glow microdischarges are reported....
A short gas-discharge layer sandwiched with a semiconductor layer between planar electrodes shows a ...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatio-tem...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatiotemp...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatiotemp...
In this letter, evidence of temporal plasma nonlinearity in which atmospheric dielectric-barrier dis...
AbstractPlasma often shows complex dynamic behavior. We present an experimental observation of order...
Plasma often shows complex dynamic behavior. We present an experimental observation of order–chaos–o...
Generation of chaos in response systems is discovered numerically through specially designed unidire...
Period-doubling bifurcation has been frequently observed in the numerical simulations of atmospheric...
Nonlinear pattern formations are ubiquitous in nature. One of the analogous configurations in labora...
Plasma is a complex medium in which chaotic states were often observed. In most of the cases, these ...
A system of gas discharge and semiconductor layer forms spatial and temporal patterns spontaneously ...
We report that dc-excited discharges in gases display current oscillations which develop into determ...
International audienceDielectric barrier discharges (DBDs) operating in a glow regime exhibit a vari...
Abstract—Three-dimensional simulations of self-organization in dc glow microdischarges are reported....
A short gas-discharge layer sandwiched with a semiconductor layer between planar electrodes shows a ...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatio-tem...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatiotemp...
Short planar glow discharges coupled to a resistive layer exhibit a wealth of spontaneous spatiotemp...
In this letter, evidence of temporal plasma nonlinearity in which atmospheric dielectric-barrier dis...
AbstractPlasma often shows complex dynamic behavior. We present an experimental observation of order...
Plasma often shows complex dynamic behavior. We present an experimental observation of order–chaos–o...
Generation of chaos in response systems is discovered numerically through specially designed unidire...
Period-doubling bifurcation has been frequently observed in the numerical simulations of atmospheric...
Nonlinear pattern formations are ubiquitous in nature. One of the analogous configurations in labora...
Plasma is a complex medium in which chaotic states were often observed. In most of the cases, these ...
A system of gas discharge and semiconductor layer forms spatial and temporal patterns spontaneously ...
We report that dc-excited discharges in gases display current oscillations which develop into determ...
International audienceDielectric barrier discharges (DBDs) operating in a glow regime exhibit a vari...
Abstract—Three-dimensional simulations of self-organization in dc glow microdischarges are reported....
A short gas-discharge layer sandwiched with a semiconductor layer between planar electrodes shows a ...