| L |
|
| Lackmann,
Jan-Wilm |
Plasma chemistry in the
effluent of a He/O2 microplasma jet: the role of VUV photons |
TL1 |
| Lacoste, Ana |
Surface mechanisms investigation for negative ion production |
P2.1.1 |
| Top-to-tail microwave
plasma sources with extended operating conditions |
P2.8.6 |
| H atom density
measurement using a combination of optical emission spectroscopy and Langmuir
probes diagnostics |
P2.5.8 |
| Lacoste, Deanna A. |
Investigations of carbon monoxide emission in methane flames stabilized by
nanosecond pulsed discharges using Mid-IR QCLAS |
P3.5.4 |
| Ladygina, Marina S. |
Interaction of Intense Pulsed Plasma Streams with CFC Targets |
P1.4.6 |
| Studies of Deuterium-Plasma
Interaction with a Tungsten Target at Different Energy Fluxes |
P1.4.5 |
| Lahmar, Hadj |
Study of spacial evolution of EEDFs and plasma parameters in RF-CCP argon
stochastic mode discharge by Langmuir probe |
P3.5.6 |
| Lamara, Tarek |
Time-resolved broadband optical absorption spectroscopy of Cr metallic
vapor using an LED lightsource |
P3.5.21 |
| Lang, N. |
A temperature study of a low pressure, pulsed dc plasma using quantum
cascade laser absorption spectroscopy (QCLAS) |
P3.5.11 |
| Lange, Hartmut |
Distribution of metastable and resonance atoms in cathode region of
low-pressure He-Xe discharge |
P1.6.12 |
| Laporta, Vincenzo |
Resonant vibration excitation cross sections and rate coefficients for
electron–CO and CO2 scattering |
P1.1.4 |
| Lapushkina, Tatiana |
Local MHD Influence on Shock Waves Position |
P3.11.2 |
| Plasma Control of
Supersonic Body Streamline |
P3.11.1 |
| Laricchiuta, Annarita |
Electron-impact excitation cross sections for air kinetics |
WS2.2 |
| Latappy, Hubert |
Real-time analysis of acetaldehyde conversion by dielectric barrier
discharge |
P2.1.11 |
| Lau, Yue-Ying |
Magneto Rayleigh-Taylor Instability in Dense Plasmas |
P1.10.2 |
| Laux, Christophe O. |
Radiative transition probabilities and electron-impact excitation
cross-sections for the VUV system of N2 |
WS2.3 |
| Investigations of carbon
monoxide emission in methane flames stabilized by nanosecond pulsed
discharges using Mid-IR QCLAS |
P3.5.4 |
| Layet, Jean-Marc |
Negative-ion surface production in hydrogen plasma: production mechanisms
on different carbon surfaces |
P2.4.8 |
| Lazović, Saša |
Spatial profiles of atomic oxygen concentrations in a large scale CCP
reactor |
P2.5.22 |
| Time-resolved
images of plasma bullet for different electrode geometries |
P3.10.1 |
| Le Quang, Damien |
Non equilibrium spectroscopic diagnostics of supersonic air plasma jet |
P2.5.20 |
| Le, Doanh Thanh |
Spectroscopic study of atmospheric pressure plasma jets generated with DBD
in gas mixtures of He – Ar – N2 |
P2.5.19 |
| Lebrizoual, Laurent |
Kinetics of H atoms in pulsed CH4 – H2 plasmas. |
P2.5.13 |
| Lecas, Thomas |
Dust particle growth kinetics in a sputtering discharge using Ar or Kr |
P2.7.1 |
| Lee, Minwook |
Kinetics of the nitrogen pink afterglow in the presence of oxygen
impurities |
P1.9.7 |
| Lefaucheux, Philippe |
Investigations in SF6 and Cl2/Ar plasmas used for titanium deep etching by
means of mass spectrometry |
P2.4.5 |
| Legrand, Yves-Marie |
About the polymerization of aromatic compounds under atmospheric plasma
conditions |
P2.1.9 |
| Lehmann, Jörg |
Application of entropy production maximisation to evaporation of atoms |
P2.4.2 |
| Lemainque, Joseph |
Experimental study of fast gas heating in a capillary nanosecond discharge |
P2.8.2 |
| Lemal, Adrien |
Radiative transition probabilities and electron-impact excitation
cross-sections for the VUV system of N2 |
WS2.3 |
| Lenaic, Couedel |
Tungsten nanoparticle formation in plasma discharges |
P1.4.12 |
| Leonelli, Richard |
Optical emission spectroscopy of the flowing afterglow of a microwave
N2/O2 plasma used for the modification of GaN nanowires |
P3.5.15 |
| Lepetit, Bruno |
Integral cross sections of He+/He and He2+/He interaction systems for
optimization of low temperature plasma sources for biomedical uses |
P2.1.8 |
| Leprince, Philippe |
Generation of plasmas in 100 µm diameter capillaries using a microwave
excitation based on a surfatron |
P3.9.7 |
| Lequang, Damien |
Modeling of the excitation non equilibrium of CO2 plasma flows obtained in
high enthalpy wind tunnels |
P3.6.10 |
| Leroy, Olivier |
Generation of plasmas in 100 µm diameter capillaries using a microwave
excitation based on a surfatron |
P3.9.7 |
| Levasseur, Olivier |
Organization of dielectric barrier discharges in the presence of
structurally-inhomogeneous wood substrates |
P2.7.7 |
| Diagnostic of
atmospheric-pressure He discharges controlled by dielectric barriers in
presence of porous wood samples |
P3.5.5 |
| Leys, Christophe |
LIF spectroscopy of OH radicals and the electron temperature in the
effluent of atmospheric RF JET in Ar-H2O mixtures |
P1.5.7 |
| Time and spatial resolved laser induced spectroscopy of O atoms and OH
radicals in 13.56 MHz RF plasma jet. |
P1.5.2 |
| Li, Dayu |
Investigation of plasma surface interactions in pulsed O2/TTIP low
pressure ICP plasma by time resolved optical emission spectroscopy |
P2.4.10 |
| Li, Li |
LIF spectroscopy of OH radicals and the electron temperature in the
effluent of atmospheric RF JET in Ar-H2O mixtures |
P1.5.7 |
| Time and spatial resolved laser induced spectroscopy of O atoms and OH
radicals in 13.56 MHz RF plasma jet. |
P1.5.2 |
| Lieder, Gerd |
Investigations of indium halides as radiator in ICPs for lighting
applications |
P1.9.6 |
| Lino Da Silva, Mario |
An Improved Kinetic Model for Highly Ionized N2-CH4 Shocked Flows |
P3.1.9 |
| Coupled
Hydrodynamic/State-Specific High-Temperature Modeling of Nitrogen Vibrational
Excitation and Dissociation |
P2.1.10 |
| Modeling of diatom-diatom
collisions using the Forced Harmonic Oscillator method, and high temperature
kinetics applications |
WS2.5 |
| Gaussian superposition
model for electron density profiles of hypersonic entries in Earth’s
atmosphere |
P1.8.5 |
| Lishev, Stiliyan |
Mode transition in a small-radius planar-coil inductively-driven discharge |
P1.5.21 |
| Lisitchenko, Tamara |
Plasma Assisted Combustion of Paraffin Mixture |
P3.10.4 |
| 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 |
| Little, Duncan |
Electron Collisions with N2+: Temperature Dependent Processes |
P1.1.11 |
| Loffhagen, Detlef |
Self-consistent 2D fluid modelling of a microwave excited plasma in argon |
P1.6.13 |
| On the description of electron transport in fluid models |
P1.6.4 |
| Fluid modeling of a ccrf
discharge in oxygen |
P3.9.3 |
| Study on the
formation of thin films using an rf non-thermal plasma jet at atmospheric
pressure |
P3.11.6 |
| Logue, Michael |
Control of Electron, Ion and Photon Distributions in Low Pressure Plasmas
Using Pulsed Plasmas |
HT7 |
| Lombardi, Guillaume |
Design and qualification of a low pressure / high density ECR dipolar
plasma reactor used for synthesis of mixed material dust |
P2.8.5 |
| Self-consistent Modeling of Particle Growth in DC dusty Discharge |
P1.6.1 |
| Loncar, Boris |
Influence of Gas Parameters on the Spark Gap Functioning |
P3.6.3 |
| The Influence of
Dielectric Properties of Commercial Vacuum Interrupters |
P3.6.2 |
| Longo, Savino |
Hybrid Model of Parallel Plate RF Discharges in H2: Effect of DC and
Tailored Voltage Waveforms |
P1.6.5 |
| Lopatik, Dmitri |
Surface vibrational relaxation of N2 studied by infrared titration with
time resolved Quantum Cascade Laser diagnostics |
P2.4.11 |
| Lopatik, Dmitry |
On the hydrocarbon kinetics in dust producing symmetrically driven rf
plasmas |
P2.7.4 |
| Lopez, Bruno |
Coupled Hydrodynamic/State-Specific High-Temperature Modeling of Nitrogen
Vibrational Excitation and Dissociation |
P2.1.10 |
| Gaussian superposition
model for electron density profiles of hypersonic entries in Earth’s
atmosphere |
P1.8.5 |
| Lopez, Maia |
Measure of the Ar(1sy) state densities by OES in Ar-N2 discharges |
P2.1.16 |
| Louhibi, Djelloul |
Study of spacial evolution of EEDFs and plasma parameters in RF-CCP argon
stochastic mode discharge by Langmuir probe |
P3.5.6 |
| Loureiro, Jorge |
Broadening of hydrogen lines produced by H2++H2 → H3++H reaction
with an energy-dependent cross section |
P1.2.1 |
| An Improved Kinetic Model
for Highly Ionized N2-CH4 Shocked Flows |
P3.1.9 |
| Coupled
Hydrodynamic/State-Specific High-Temperature Modeling of Nitrogen Vibrational
Excitation and Dissociation |
P2.1.10 |
| Modeling of diatom-diatom
collisions using the Forced Harmonic Oscillator method, and high temperature
kinetics applications |
WS2.5 |
| Gaussian superposition
model for electron density profiles of hypersonic entries in Earth’s
atmosphere |
P1.8.5 |
| Lovascio, Sara |
Ethanol decomposition in Air Dielectric Barrier Discharges: experimental
study and kinetic modeling |
P1.1.12 |
| Löwen, H. |
Complex plasmas - a laboratory for selforganization |
GL4 |
| Lu, X. P. |
Time and spatial resolved laser induced spectroscopy of O atoms and OH
radicals in 13.56 MHz RF plasma jet. |
P1.5.2 |
| Lu, Xinpei |
LIF spectroscopy of OH radicals and the electron temperature in the
effluent of atmospheric RF JET in Ar-H2O mixtures |
P1.5.7 |
| Lucena Polonio, María Vanessa |
Experimental study of the transition of the ion current to a cylindrical
Langmuir probe from the orbital to the radial theory. |
P2.4.6 |
| Luculescu, Catalin |
Evidence of aluminum oxides formation at polymer/Al substrate interface in
atmospheric pressure discharges |
P2.4.3 |
| Ludwig, P. |
Complex plasmas - a laboratory for selforganization |
GL4 |
| Luhrs, Claudia |
Carbon nanostructures synthesized by a microwave plasma torch |
P3.10.3 |
| Microwave Plasma Produced
Materials For Energy Applications |
W1.1 |
| Luque, Alejandro |
Mesospheric electric breakdown and delayed sprite ignition caused by
associative electron detachment |
P1.1.6 |
| Lxcat Team |
Status report on the LXCat project |
P1.1.16 |
| Lyubutin, Sergei |
Compact generator of 240 kV atmospheric pressure nanosecond discharge |
P1.10.9 |
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