| K |
|
| Kaganovich,
Igor |
Active control of
electron energy distribution function in dc discharge using an auxiliary
electrode |
P3.6.1 |
| Kählert, H. |
Complex plasmas - a laboratory for selforganization |
GL4 |
| Kaleri, Alexander |
Coulomb clusters in a cusp magnetic trap under microgravity condition |
P2.7.6 |
| Kamiński, Wojciech |
Influence of neon and argon admixtures on laser generation conditions of
krypton ion lasers |
P3.1.10 |
| Kanaev, Andrei |
Diphasic process combining a fluidized catalytic bed and a plasma at
atmospheric pressure for the degradation of volatile organic compounds |
WS1.5 |
| Kang, Namjun |
Kinetics of the nitrogen pink afterglow in the presence of oxygen
impurities |
P1.9.7 |
| Detection of N2(A) metastable molecules in the N2 RF afterglows |
P2.1.19 |
| Kano, Hiroyuki |
High-speed synthesis and crystalinity control of nanographene using
in-liquid plasma in alcohol |
HT8 |
| Karalnik, Vladimir |
Three stages in development of a surface DBD in dense gases excited by a
single negative high-voltage pulse |
P2.10.3 |
| Steady – state and pulsed – periodical
regimes for generation of non – thermal plasma jets at atmospheric pressure |
GL2 |
| Karin, Stana Kleinschek |
Plasma reshaping carbon: The role of plasma species in surface
interactions with carbon |
HT2 |
| Kassubek, Frank |
Application of entropy production maximisation to evaporation of atoms |
P2.4.2 |
| Kawai, Yoshinobu |
Sheath Potential Measurements in Negative Ion Plasma |
P1.5.1 |
| Kelly, Mark |
C/H/O plasmas for diamond growth: density measurements of key plasma
species using cavity ring down and optical emission spectroscopy |
P1.5.15 |
| Kelsey, Colin |
Enhancement of plasma generated H2O2 in water by the addition of ethanol |
P2.3.13 |
| Kęsik, Jerzy |
Influence of neon and argon admixtures on laser generation conditions of
krypton ion lasers |
P3.1.10 |
| Kettlitz, Manfred |
Comparison of pulsed and sinusoidal operated barrier discharges |
P1.5.9 |
| Kishor Kumar, Kalathiparambil |
Tungsten nanoparticle formation in plasma discharges |
P1.4.12 |
| Kiss'Ovski, Zhivko |
Hairpin Probe Sensitivity for Determination of Plasma Density |
P3.5.13 |
| Probe diagnostics of a
small microwave discharge at atmosheric pressure |
P2.5.15 |
| Klas, Matej |
Electrical Breakdown in Water Vapor at micrometer separations |
P2.1.15 |
| Klett, Charles |
Oxidation of an acetaldehyde/acetylene equimolar mixture by an atmospheric
non-thermal plasma discharge |
P3.1.4 |
| Klochko, Andrei |
Experimental study of fast gas heating in a capillary nanosecond discharge |
P2.8.2 |
| Klusoň, Jan |
Gas flow velocity in the low pressure hollow cathode plasma jet sputtering
system |
P3.5.8 |
| Kocianova, Maria |
Evaluation of minor and trace elements in meteorite “Košice“ by
calibrationfree laser induced breakdown spectroscopy |
P3.12.9 |
| Koeta, Ouya |
Production of methyl nitrate and PAN following the decomposition of
acetaldehyde in atmospheric gases |
P2.1.20 |
| Real-time analysis of
acetaldehyde conversion by dielectric barrier discharge |
P2.1.11 |
| Koga, Kazunori |
Development of dust particle manipulation method in capacitively coupled
plasmas via the Electrical Asymmetry Effect |
P2.7.5 |
| Koizumi, Yuusuke |
Collisional quenching rate coefficient of N2(A3Σ+u) by xylene |
P2.1.3 |
| Kolev, Stanimir |
Probe diagnostics of a small microwave discharge at atmosheric pressure |
P2.5.15 |
| Koleva, Ivanka |
Mode transition in a small-radius planar-coil inductively-driven discharge |
P1.5.21 |
| Kondo, Hiroki |
High-speed synthesis and crystalinity control of nanographene using
in-liquid plasma in alcohol |
HT8 |
| Konstantinidis, Stephanos |
Time- and Energy-resolved Mass Spectrometry Study of a Reactive High-Power
Impulse Magnetron Sputtering Discharge |
P1.4.9 |
| Kosarev, Ilya |
Electric field evolution in surface nanosecond dielectric barrier
discharge |
P2.10.5 |
| Koskulics, Jeff |
Experimental estimation of capacitances in pulsed barrier discharges |
P1.5.17 |
| Kossyi, Igor |
Microwave coaxial plasma source (physics and applications) |
P1.10.4 |
| Multispark discharge in
water as a method of environmental sustainability problems solution |
WS1.2 |
| Advances of contemporary
gas-discharge fundamental physics and based on them new microwave plasma
sources |
P1.9.1 |
| Kostecki, Jerzy |
Photoionization of gases by EUV pulses from a laser-plasma source |
P3.12.3 |
| Kotrik, Tomas |
Collisional radiative recombination Ar+ + e– + e– in low temperature
plasma |
P2.1.18 |
| Kousaka, Hiroyuki |
Numerical Simulation on Fundamental Properties in Low-Pressure
Radio-Frequency CH4 Plasmas for Diamond-Like Carbon Films |
P2.8.8 |
| Kovacevic, Eva |
Low temperature plasmas as a source for nanostructured organic surfaces
with controlled wettability |
P3.4.7 |
| Low temperature plasma
deposition of thin films/nanoparticles from methyl methacrylate |
P3.4.9 |
| Kovačič, Jerne |
Langmuir Probe Evaluation of the Negative Ion Density in Oxygen Gas
Discharge Magnetized Plasma |
P1.5.16 |
| Kowal, Jan |
Application of microplasmas for satellite propulsion |
P3.11.4 |
| Kozakova, Zdenka |
Generation of pin-hole discharges in liquids |
TL8 |
| Kozlov, Yurii |
Multispark discharge in water as a method of environmental sustainability
problems solution |
WS1.2 |
| Krcma, Frantisek |
Generation of pin-hole discharges in liquids |
TL8 |
| Plasmachemical Removal of
Corrosion Layers from Brass |
P2.3.3 |
| Enhancement of plasma
generated H2O2 in water by the addition of ethanol |
P2.3.13 |
| In-situ monitoring of
thin film deposition process using optical emission spectroscopy |
P3.5.7 |
| Kristina, Eleršič |
Plasma reshaping carbon: The role of plasma species in surface
interactions with carbon |
HT2 |
| Krištof, Jaroslav |
Vibrational Distribution Function of N2(C3Pu, v’) state in N2-Ar discharge
created by a RF helical coupling device |
P1.1.10 |
| Kinetics of N2(B3Pg) and N2(C3Pu) states in N2-Ar discharges sustained by
a RF helical coupling device |
P1.1.9 |
| Kromka, Alexander |
Numerical simulation of large area microwave plasma system for deposition
of nanocrystalline diamond films |
P2.6.2 |
| Kubkowska, Monika |
Interaction of Intense Pulsed Plasma Streams with CFC Targets |
P1.4.6 |
| Kudrna, Pavel |
Gas flow velocity in the low pressure hollow cathode plasma jet sputtering
system |
P3.5.8 |
| Kudryavzev, Vladimir |
Plasma reforming of ethanol/water mixture in the plasma-liquid system with
reverse vortex air/CO2 flow of “tornado” type with liquid electrode |
P3.10.5 |
| Kumar, Pravin |
Negative-ion surface production in hydrogen plasma: production mechanisms
on different carbon surfaces |
P2.4.8 |
| Kumegawa, Hiroki |
Measurement of ozone density distribution in a dielectric barrier
discharge ozone generator using laser absorption method |
P3.5.18 |
| Kuraica, Milorad |
Detection of energetic hydrogen atoms in a pulse glow discharge |
P2.5.2 |
| Electric Field
Measurement in Multipeak Mode of DBD in Helium-Hydrogen Mixture |
P2.5.1 |
| Kushner, Mark |
Control of Electron, Ion and Photon Distributions in Low Pressure Plasmas
Using Pulsed Plasmas |
HT7 |
| Kuznetsov, Dmitrii |
Compact generator of 240 kV atmospheric pressure nanosecond discharge |
P1.10.9 |
| Kwiatkowski, Roch |
Interaction of Intense Pulsed Plasma Streams with CFC Targets |
P1.4.6 |
| Küllig, C. |
High and low electronegativity mode in cc-rf oxygen plasma |
P2.1.2 |
| Instabilities in cc-rf
oxygen plasma |
P2.5.9 |
|
|
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