| G |
|
| Gadéa,
Florent Xavier |
Integral cross sections
of He+/He and He2+/He interaction systems for optimization of low temperature
plasma sources for biomedical uses |
P2.1.8 |
| Ganciu, Mihai |
Evidence of aluminum oxides formation at polymer/Al substrate interface in
atmospheric pressure discharges |
P2.4.3 |
| The afterglow plasma of pulsed hollow
cathode discharge - a high density metastable source |
P2.5.7 |
| Gans, Timo |
Cold atmospheric pressure plasma jets as sources of reactive oxygen
species for biomedical applications |
TL5 |
| Atomic nitrogen
measurements in an atmospheric-pressure plasma jet |
P2.5.16 |
| Garcia, Gustavo |
Relative differential cross sections for elastic electron scattering by
furan |
P2.1.4 |
| Garkusha, Igor E. |
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 |
| Garrigues, Laurent |
A particle test Monte-Carlo model to understand electron-wave interactions
in a Hall Effect Thruster |
P2.6.12 |
| Ion and fast atom beams
in an End-Hall ion source: a numerical study |
P2.6.9 |
| One-dimensional
Particle-In-Cell simulations of the sheath dynamic in ion-ion plasmas |
P2.6.11 |
| Gautier, Thomas |
Mimicking Titan’s upper atmosphere reactivity with a RF-capacitively
coupled N2-CH4 plasma |
P1.8.1 |
| On the infuence of CO on a dusty N2-CH4 CCP RF discharge |
P1.7.1 |
| Gazeli, Kristaq |
Spectroscopic study of atmospheric pressure plasma jets generated with DBD
in gas mixtures of He – Ar – N2 |
P2.5.19 |
| Gazza, Erica |
Characterization of non-thermal atmospheric plasmas applied for the
degradation of organic pollutants in air and in water with Optical Emission
Spectroscopy (OES) |
P2.3.9 |
| Decomposition of mixtures
of organic compounds in atmospheric plasma |
TL2 |
| Géraud-Grenier, Isabelle |
Generation and characterization of hydrogen amorphous carbon nitrile
particles and mass spectrometric study of the CH4/N2 radio-frequency plasma. |
P2.5.12 |
| Dust particle growth
kinetics in a sputtering discharge using Ar or Kr |
P2.7.1 |
| Gerlich, D. |
Ternary association of H+ ions with H2; Experiments with normal and
para-enriched hydrogen at 11 K |
P3.1.8 |
| Gérôme, Frederic |
Modelling of microwave-driven micro-plasmas in HCPCF |
P2.6.10 |
| Generation of plasmas in
100 µm diameter capillaries using a microwave excitation based on a surfatron |
P3.9.7 |
| Gerst, Dennis |
Plasma drift in a low-pressure magnetized RF discharge |
P1.2.3 |
| Gherardi, Nicolas |
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 |
| Numerical modelling of an atmosperic pressure plasma reactor using control
volume methods and unstructured grids |
P1.6.2 |
| Gicquel, Alix |
Negative-ion surface production in hydrogen plasma: production mechanisms
on different carbon surfaces |
P2.4.8 |
| Chemical kinetics of
H2/CH4 plasmas for high pressure/high power growth conditions used in diamond
MPACVD |
P2.3.8 |
| Modelling of microwave
plasma used for thick highly boron doped diamond deposition |
P2.6.4 |
| Gilgenbach, Ronald |
Magneto Rayleigh-Taylor Instability in Dense Plasmas |
P1.10.2 |
| Glosík, Juraj |
Ternary association of H+ ions with H2; Experiments with normal and
para-enriched hydrogen at 11 K |
P3.1.8 |
| Collisional radiative
recombination Ar+ + e– + e– in low temperature plasma |
P2.1.18 |
| Gocic, Sasa |
Spatial structure of the low-pressure discharge in nitrogen – influence of
surface conditions |
P2.8.7 |
| Godfroid, Thomas |
Time-Resolved Optical Emission Spectroscopy of a Surfaguide Flowing Gas
Microwave Discharge |
P1.5.12 |
| Godyak, Valery |
Evolution of electron temperature and negative ion density through a
magnetic barrier |
P3.5.10 |
| Golda, Judith |
Investigations in SF6 and Cl2/Ar plasmas used for titanium deep etching by
means of mass spectrometry |
P2.4.5 |
| Golubovskii, Yuri |
Distribution of metastable and resonance atoms in cathode region of
low-pressure He-Xe discharge |
P1.6.12 |
| Gómez, Bernardo |
Measure of the Ar(1sy) state densities by OES in Ar-N2 discharges |
P2.1.16 |
| Gorchakov, Sergey |
Distribution of metastable and resonance atoms in cathode region of
low-pressure He-Xe discharge |
P1.6.12 |
| Gordiets, Boris |
UV Emission from Microwave Plasmas |
P3.9.1 |
| Gordillo-Vazquez, Francisco J. |
Influence of pressure on the formation of negative ions in water
vapour |
P3.1.1 |
| Mesospheric electric breakdown and delayed sprite ignition caused by
associative electron detachment |
P1.1.6 |
| Goullet, Antoine |
Investigation of plasma surface interactions in pulsed O2/TTIP low
pressure ICP plasma by time resolved optical emission spectroscopy |
P2.4.10 |
| Gouveia, André |
Experimental characterization of capacitively coupled radio-frequency
discharges in N2-CH4 |
P1.7.5 |
| RF capacitively coupled plasmas in
N2-H2 mixtures |
P1.5.10 |
| Graham, Lucy |
Cold atmospheric pressure plasma jets as sources of reactive oxygen
species for biomedical applications |
TL5 |
| Graham, William |
Enhancement of plasma generated H2O2 in water by the addition of ethanol |
P2.3.13 |
| Plasmas in Liquids
and their Applications |
GL8 |
| Thomson scattering
and emission spectroscopy of laser sparks induced in pure He and He-N2
mixtures at 1atm |
P3.12.4 |
| Granier, Agnès |
Investigation of plasma surface interactions in pulsed O2/TTIP low
pressure ICP plasma by time resolved optical emission spectroscopy |
P2.4.10 |
| Kinetics of H atoms in
pulsed CH4 – H2 plasmas. |
P2.5.13 |
| Gravejat, P. |
Adsorbed and Gas Phase Study of the Oxidation of Isopropanol on TiO2 Using
Non Thermal Plasma for Surface Regeneration |
P3.4.12 |
| Gregor, Filipič |
Plasma reshaping carbon: The role of plasma species in surface
interactions with carbon |
HT2 |
| Gregorio, José |
Modelling of cathode boundary layer discharges in Kr/Cl2 mixtures |
P2.6.15 |
| Swarm parameters in
Cl2/rare gas mixtures |
P2.1.13 |
| Modeling of ITER glow
discharge cleaning |
P2.6.3 |
| Gritsinin, Sergei |
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 |
| Grolmusova, Zuzana |
Evaluation of minor and trace elements in meteorite “Košice“ by
calibrationfree laser induced breakdown spectroscopy |
P3.12.9 |
| Groza, Andreea |
Evidence of aluminum oxides formation at polymer/Al substrate interface in
atmospheric pressure discharges |
P2.4.3 |
| The afterglow plasma of
pulsed hollow cathode discharge - a high density metastable source |
P2.5.7 |
| Grushin, Michail |
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 |
| Guaitella, Olivier |
A temperature study of a low pressure, pulsed dc plasma using quantum
cascade laser absorption spectroscopy (QCLAS) |
P3.5.11 |
| Adsorbed and Gas Phase
Study of the Oxidation of Isopropanol on TiO2 Using Non Thermal Plasma for
Surface Regeneration |
P3.4.12 |
| Optical-Feedback
Cavity-Enhanced Absorption spectroscopy detects ppt traces of Formaldehyde
for the validation of air plasma treatment system |
P3.5.19 |
| Consequences of
slightly different ground configurations on the propagation of ionisation
waves inside capillary tubes |
P3.10.10 |
| Molecules formation with
adsorbed O atoms: how to investigate surface reactivity from fundamentals to
applications |
TL4 |
| Probing adsorption and
reactivity of nitrogen atoms on silica surface under plasma exposure |
P3.4.11 |
| Ozone production in O2
plasma at low pressure: surface or gas phase mechanism? |
P2.4.9 |
| Surface vibrational
relaxation of N2 studied by infrared titration with time resolved Quantum
Cascade Laser diagnostics |
P2.4.11 |
| Spectroscopic and
shadowgraphic investigation of nanosecond underwater discharge |
P3.10.7 |
| Guerra, Vasco |
Molecules formation with adsorbed O atoms: how to investigate surface
reactivity from fundamentals to applications |
TL4 |
| Kinetics of the nitrogen pink afterglow in the presence of oxygen
impurities |
P1.9.7 |
| Study of the electron
kinetics in He/CH4/CO2 mixtures for Syngas production |
P1.2.9 |
| 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 |
| Ozone production in O2
plasma at low pressure: surface or gas phase mechanism? |
P2.4.9 |
| Modeling of diatom-diatom
collisions using the Forced Harmonic Oscillator method, and high temperature
kinetics applications |
WS2.5 |
| Classical rotons due to
light fluctuation and plasma-like effects in cold atomic traps |
P2.1.7 |
| Guivan, Mykola |
Optical characteristics and parameters of DBD plasma based on
multicomponent mixtures of mercury dibromide vapor with gases |
P3.5.20 |
| Gulbrandsen, Njål |
Plasma flows in expanding magnetic field: simulations, probe and Laser
Induced Fluorescence (LIF) measurements |
P3.11.7 |
| Gunji, Toshitsugu |
Conversion of CO2 to methane by a low-pressure hollow-cathode
discharge |
P1.1.2 |
| Guy, Cernogora |
RF capacitively coupled plasmas in
N2-H2 mixtures |
P1.5.10 |
| Gyergyek, Tomash |
Langmuir Probe Evaluation of the Negative Ion Density in Oxygen Gas
Discharge Magnetized Plasma |
P1.5.16 |
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