PLASMA DYNAMICS
... The compensator was calibrated by using the multiple-pass technique of Gerardo and Verdeyden 4 and was measured to be linear to within 2 per cent. ...
... The compensator was calibrated by using the multiple-pass technique of Gerardo and Verdeyden 4 and was measured to be linear to within 2 per cent. ...
"Torque-Balanced High-Density Steady States of Single-Component Plasmas" Physical Review Letters 94 (2005), 0305001. J. R. Danielson and C. M. Surko (PDF)
... many contexts, such as the confinement and tailoring of antiproton and positron plasmas for numerous applications, including atomic physics and tests of fundamental symmetries and the characterization of materials [1]. Consequently, it is important to understand the range of accessible plasma parame ...
... many contexts, such as the confinement and tailoring of antiproton and positron plasmas for numerous applications, including atomic physics and tests of fundamental symmetries and the characterization of materials [1]. Consequently, it is important to understand the range of accessible plasma parame ...
Plasma Processing of Large Surfaces with Application to SRF Cavity
... microwave plasma (2.45 GHz) frequency inside a quartz tube was used for this experiment. The gas mixture used was 97% argon and 3% chlorine. While the results with the flat samples were very encouraging [1], with etching rates up to 1.7 μm/min and surface roughness down to below 100 nm, the two para ...
... microwave plasma (2.45 GHz) frequency inside a quartz tube was used for this experiment. The gas mixture used was 97% argon and 3% chlorine. While the results with the flat samples were very encouraging [1], with etching rates up to 1.7 μm/min and surface roughness down to below 100 nm, the two para ...
Plasma arc machining
... gas to move radially outward, forming a protective boundary layer on the inside of the nozzle bore. This helps prevent damage to the nozzle and extends its life. Electrode life is also improved. Since the arc attachment point (cathode) is forced to move about and distribute its heat load more unifor ...
... gas to move radially outward, forming a protective boundary layer on the inside of the nozzle bore. This helps prevent damage to the nozzle and extends its life. Electrode life is also improved. Since the arc attachment point (cathode) is forced to move about and distribute its heat load more unifor ...
Liquid Crystal Displays (LCD)
... the phosphor electrons located on the sides of the cells. These electrons in turn release visible light and return to their lower energy state. Each pixel is composed of three cells containing red, green and blue phosphors. Plasma displays offer advantages like each pixel generates its own light off ...
... the phosphor electrons located on the sides of the cells. These electrons in turn release visible light and return to their lower energy state. Each pixel is composed of three cells containing red, green and blue phosphors. Plasma displays offer advantages like each pixel generates its own light off ...
Extraction of small-diameter beams from single-component plasmas
... finely focused beams of positrons and other scarce particles are discussed. © 2007 American Institute of Physics. 关DOI: 10.1063/1.2709522兴 Low-energy particle beams have wide utility in science and technology, including bright beams for microscopy and scattering experiments and cold beams for spectr ...
... finely focused beams of positrons and other scarce particles are discussed. © 2007 American Institute of Physics. 关DOI: 10.1063/1.2709522兴 Low-energy particle beams have wide utility in science and technology, including bright beams for microscopy and scattering experiments and cold beams for spectr ...
PlasmaPhys08NotesDia..
... laser is required to obtain sufficient photons to detect the scattered radiation, and stray light from the laser and other sources presents difficulties in observing the scattered radiation. (A 0.05 joule pulse from a frequency-doubled Nd:YAG laser at 532 nm - a powerful laser pulse – contains ~1017 ...
... laser is required to obtain sufficient photons to detect the scattered radiation, and stray light from the laser and other sources presents difficulties in observing the scattered radiation. (A 0.05 joule pulse from a frequency-doubled Nd:YAG laser at 532 nm - a powerful laser pulse – contains ~1017 ...
A VERY LOW TEMPERATURE ATMOSPHERIC
... sources use commercial devices as waveform generators with transfer efficiency energy from the power source to the plasma of about 20%. In this contribution, the principle of plasma generation at 800 kHz [2] was used to generate a non-thermal APP at 48 kHz by a simple modification. The electrical an ...
... sources use commercial devices as waveform generators with transfer efficiency energy from the power source to the plasma of about 20%. In this contribution, the principle of plasma generation at 800 kHz [2] was used to generate a non-thermal APP at 48 kHz by a simple modification. The electrical an ...
Plasma display
A plasma display panel (PDP) is a type of flat panel display common to large TV displays 30 inches (76 cm) or larger. They are called ""plasma"" displays because they use small cells containing electrically charged ionized gases, which are plasmas.