Add to ORKGDischarge (MHCD), and microstrip technology (MS) discharges at different operating conditions are discussed. Numerical and experimental methods used for the analysis of the physics involved in these microplasmas, as well as the different construction methods used, are also described
Microdischarges may be produced in various geometries, in various gas mixtures, and with various typ...
A microwave plasma system based on microstripline technology is created and implemented for the expe...
The generation of plasma-on-a-chip is examined for two extremes in gas pressure. The application of ...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
This review article describes some existing microplasma sources and their applications in analytical...
In this study, a microplasma discharge device (MDD) was modelled and simulated for sterilization app...
International audienceMicroplasmas are a sizable part of non-equilibrium non-thermal plasma sources....
Microplasmas are confined discharges on small spatial scales (typically several hundreds of micromet...
Thanks to their portability and the non-equilibrium character of the discharges, microplasmas are fi...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
Micro-plasma jets in atmospheric pressure molecular gases (nitrogen, oxygen, air) were generated by...
Micro plasma devices (MPD) with power gains are of interest in applications involving operations in ...
Abstract—Inactivation of microorganisms, such as Escherichia coli, by exposure to a microplasma is e...
In der vorliegenden Arbeit wird über den Einsatz von Mikroplasmen bei atmosphärischem Druck zur Beha...
Microdischarges may be produced in various geometries, in various gas mixtures, and with various typ...
A microwave plasma system based on microstripline technology is created and implemented for the expe...
The generation of plasma-on-a-chip is examined for two extremes in gas pressure. The application of ...
Microplasmas refer to electric discharges created in very small geometries able to operate in DC mo...
This review article describes some existing microplasma sources and their applications in analytical...
In this study, a microplasma discharge device (MDD) was modelled and simulated for sterilization app...
International audienceMicroplasmas are a sizable part of non-equilibrium non-thermal plasma sources....
Microplasmas are confined discharges on small spatial scales (typically several hundreds of micromet...
Thanks to their portability and the non-equilibrium character of the discharges, microplasmas are fi...
Non-equilibrium microplasmas at atmospheric pressures have been investigated for active flow control...
Microplasmas gained recognition as a distinct area of research within the larger field of plasma sci...
Micro-plasma jets in atmospheric pressure molecular gases (nitrogen, oxygen, air) were generated by...
Micro plasma devices (MPD) with power gains are of interest in applications involving operations in ...
Abstract—Inactivation of microorganisms, such as Escherichia coli, by exposure to a microplasma is e...
In der vorliegenden Arbeit wird über den Einsatz von Mikroplasmen bei atmosphärischem Druck zur Beha...
Microdischarges may be produced in various geometries, in various gas mixtures, and with various typ...
A microwave plasma system based on microstripline technology is created and implemented for the expe...
The generation of plasma-on-a-chip is examined for two extremes in gas pressure. The application of ...