Add to ORKGLow-pressure acetylene plasmas are able to spontaneously form (under certain conditions) dust particles, resulting in a cloud of charged particles up to micrometer sizes levitated in the plasma. A capacitively coupled plasma is ignited in a cylindrical discharge chamber that simultaneously serves as microwave resonator. Microwave cavity resonance spectroscopy (MCRS) is used to determine the electron density of the plasma. However, the accuracy of this method is directly influenced by the presence and abundance of the dust particles. This is studied in more detail by using multiple cavities. The spatial distribution of the dust is visualized with laser light scattering and video imaging thereof. The charge of the particles is also an importa...
In a dusty plasma, nanometer-sized solid dust particles can be grown by the polymerization of plasma...
Microwave discharges with powers around 120W at f = 2.45 GHz created in low pressure argon gas at 0....
In order to meet the demand of increasing computer speed and memory capacity, industries are strivin...
Low-pressure acetylene plasmas are able to spontaneously form (under certain conditions) dust partic...
In a typical laboratory nanodusty plasma, nanometer-sized solid dust particles can be generated from...
In extreme ultraviolet (EUV) lithography, ionic and particulate debris coming from the plasma source...
We present an in situ study of the electron dynamics of an ultracold Rb85 plasma using microwave cav...
The electron density and effective electron collision frequency in the spatial afterglow of a pulsed...
Low-temperature plasmas are widely studied in laboratory environments and form the backbone of many ...
In extreme ultraviolet (EUV) lithography, ionic and particulate debris coming from the plasma source...
The formation and charging of submicrometer dust particles in a low pressure argon/silane radio-freq...
Complex plasmas are plasmas with dust particles or liquid droplets suspended in them. Under certain ...
In a dusty plasma, nanometer-sized solid dust particles can be grown by the polymerization of plasma...
Microwave discharges with powers around 120W at f = 2.45 GHz created in low pressure argon gas at 0....
In order to meet the demand of increasing computer speed and memory capacity, industries are strivin...
Low-pressure acetylene plasmas are able to spontaneously form (under certain conditions) dust partic...
In a typical laboratory nanodusty plasma, nanometer-sized solid dust particles can be generated from...
In extreme ultraviolet (EUV) lithography, ionic and particulate debris coming from the plasma source...
We present an in situ study of the electron dynamics of an ultracold Rb85 plasma using microwave cav...
The electron density and effective electron collision frequency in the spatial afterglow of a pulsed...
Low-temperature plasmas are widely studied in laboratory environments and form the backbone of many ...
In extreme ultraviolet (EUV) lithography, ionic and particulate debris coming from the plasma source...
The formation and charging of submicrometer dust particles in a low pressure argon/silane radio-freq...
Complex plasmas are plasmas with dust particles or liquid droplets suspended in them. Under certain ...
In a dusty plasma, nanometer-sized solid dust particles can be grown by the polymerization of plasma...
Microwave discharges with powers around 120W at f = 2.45 GHz created in low pressure argon gas at 0....
In order to meet the demand of increasing computer speed and memory capacity, industries are strivin...