| B |
|
| Babicky, Vaclav |
Temporal evolution of the N2(C3Πu) vibrational levels produced by
single surface streamer in N2-O2 mixtures |
P2.5.6 |
| Babou, Yacine |
Modeling of the excitation non equilibrium of CO2 plasma flows obtained in
high enthalpy wind tunnels |
P3.6.10 |
| Non equilibrium
spectroscopic diagnostics of supersonic air plasma jet |
P2.5.20 |
| Bacal, Martha |
Surface mechanisms investigation for negative ion production |
P2.1.1 |
| Baede, Loek |
Time and spatially resolved OH density in a nanosecond pulsed discharge in
atmospheric pressure He-H2O mixtures |
P1.10.8 |
| Baeva, Margarita |
Self-consistent 2D fluid modelling of a microwave excited plasma in argon |
P1.6.13 |
| Ballesteros Pastor, Jerónimo |
Experimental study of the transition of the ion current to a cylindrical
Langmuir probe from the orbital to the radial theory. |
P2.4.6 |
| Bandelow, Gunnar |
Modeling and sensitivity studies of cc-rf CF4 plasma |
P2.1.6 |
| Bandow, Julia |
Plasma chemistry in the effluent of a He/O2 microplasma jet: the role of
VUV photons |
TL1 |
| Bankova, Ana |
Langmuir Probe Evaluation of the Negative Ion Density in Oxygen Gas
Discharge Magnetized Plasma |
P1.5.16 |
| Barakat, Christelle |
Adsorbed and Gas Phase Study of the Oxidation of Isopropanol on TiO2 Using
Non Thermal Plasma for Surface Regeneration |
P3.4.12 |
| Molecules formation with
adsorbed O atoms: how to investigate surface reactivity from fundamentals to
applications |
TL4 |
| Barkhugarov, Edvard |
Multispark discharge in water as a method of environmental sustainability
problems solution |
WS1.2 |
| Barthaud, Daniel |
Application of microplasmas for satellite propulsion |
P3.11.4 |
| Bartnik, Andrzej |
Photoionization of gases by EUV pulses from a laser-plasma source |
P3.12.3 |
| Bary, Abdouraman |
Production of methyl nitrate and PAN following the decomposition of
acetaldehyde in atmospheric gases |
P2.1.20 |
| Basosi, Riccardo |
Sustainable finishing of wollen fabrics by means of plasma treatment |
P1.4.8 |
| Basurto, Eduardo |
Effective ionization coefficients and limiting field strength of SF6-N2O
and CF3I-SF6-N2 mixtures |
P1.1.1 |
| Bazavan, Marian |
Current-voltage characteristics of a RF plasma jet discharge with bare
electrodes at low and atmospheric pressure |
P2.10.9 |
| Becker, Markus M. |
On the description of electron transport in fluid models |
P1.6.4 |
| Behnejad, Hassan |
Gaseous ion mobility of SO2+ ions in He and Ar |
P1.2.4 |
| Bekstein, Alexandre |
Influence of pressure on the formation of negative ions in water
vapour |
P3.1.1 |
| Electron detachment in
N2O |
P3.1.3 |
| A genetic algorithm to
optimize the fitting of avalanches observed from a pulsed Townsend experiment |
P3.6.7 |
| Belmonte, Thierry |
Surface-wave discharges in helium at atmospheric pressure: simulations vs.
experiments |
P2.10.10 |
| Spectroscopic study of
atmospheric pressure plasma jets generated with DBD in gas mixtures of He –
Ar – N2 |
P2.5.19 |
| Threshold ionization mass
spectrometry and optical emission spectroscopy characterization of Ar/O2/N2
microwave discharge |
P1.5.20 |
| Bubble dynamics created
by plasma in heptane |
P1.10.3 |
| Benabid, Fetah |
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 |
| Benedic, Fabien |
Modelling of microwave plasma used for thick highly boron doped diamond
deposition |
P2.6.4 |
| Benedikt, Jan |
Plasma chemistry in the effluent of a He/O2 microplasma jet: the role of
VUV photons |
TL1 |
| Benhenni, Malika |
Integral cross sections of He+/He and He2+/He interaction systems for
optimization of low temperature plasma sources for biomedical uses |
P2.1.8 |
| Benilov, Mikhail |
Self-organization as an intrinsic feature of DC glow microdischarges:
modelling appearance of different spot patterns |
HT3 |
| Self-organization as an
intrinsic feature of DC glow microdischarges: predicting self-organization in
different gases |
P3.7.6 |
| Benova, Evgenia |
Cylindrical and coaxial surface-wave-sustained plasma for environmental
applications |
WS1.3 |
| Effect of gas discharge
conditions on Argon surface-wave-sustained plasma kinetics |
P1.1.13 |
| Berndt, Johannes |
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 |
| Bernecker, Benoît |
Interactive diagnostics for a pulsed electron beam transport in plasma |
P1.2.2 |
| Generation, annihilation
and motion of self-organized filaments in dielectric barrier discharges |
TL6 |
| Bhattacharjee, Sudeep |
Observation of electron localization and asymmetric frequency sideband
generation in bounded microwave-plasma interaction |
P3.9.5 |
| Transition from
interpulse plasmas to afterglows in a pulsed microwave discharge |
P3.9.6 |
| Bisceglie, Emanuele |
Electron-impact excitation cross sections for air kinetics |
WS2.2 |
| Blahova, Lucie |
In-situ monitoring of thin film deposition process using optical emission
spectroscopy |
P3.5.7 |
| Blanco, F |
Relative differential cross sections for elastic electron scattering by
furan |
P2.1.4 |
| Blanco, Stephane |
Generation, annihilation and motion of self-organized filaments in
dielectric barrier discharges |
TL6 |
| Blin-Simiand, Nicole |
Real-time analysis of acetaldehyde conversion by dielectric barrier
discharge |
P2.1.11 |
| Production of methyl nitrate and PAN following the decomposition of
acetaldehyde in atmospheric gases |
P2.1.20 |
| Ethanol decomposition in
Air Dielectric Barrier Discharges: experimental study and kinetic modeling |
P1.1.12 |
| Block, Dietmar |
Complex plasmas - a laboratory for selforganization |
GL4 |
| Phase transitions in finite particle clusters in dusty plasmas |
P1.7.3 |
| Boeuf, Jean-Pierre |
Ion and fast atom beams in an End-Hall ion source: a numerical study |
P2.6.9 |
| Generation, annihilation
and motion of self-organized filaments in dielectric barrier discharges |
TL6 |
| Currents through a
magnetic filter in a low temperature plasma |
P2.6.8 |
| Particle-In-Cell Monte
Carlo Collision model on GPU (Graphics Processing Units) - Application to a
low temperature magnetized plasma |
P2.6.7 |
| A particle test
Monte-Carlo model to understand electron-wave interactions in a Hall Effect
Thruster |
P2.6.12 |
| Bogaczyk, Marc |
Spatio-temporally resolved investigation of surface charges, N2(A)
metastables and the discharge development in diffuse N2 barrier discharges |
P2.5.18 |
| Townsend-like and
glow-like diffuse discharge modes in barrier discharges operating in helium |
P2.5.17 |
| Bogaerts, Annemie |
Understanding plasma growth of SWNTs: Effect of electric field and ion
bombardment |
P3.4.3 |
| Modelling of an
atmospheric pressure dc glow discharge |
P2.6.6 |
| Modeling SiCl4/O2 plasmas used for depositing SiO2 coatings or mask damage
recovery |
P2.3.1 |
| Bogatov, Nikolay |
Threshold Measurements of Discharges from Floating Metal Particles in a
Homogeneous Electric Field in Air |
P1.10.11 |
| Boisse-Laporte, Caroline |
Generation of plasmas in 100 µm diameter capillaries using a microwave
excitation based on a surfatron |
P3.9.7 |
| Bonaventura, Zdeněk |
Numerical simulation of the interaction of two streamer discharges in air |
P1.6.9 |
| Numerical simulation of
large area microwave plasma system for deposition of nanocrystalline diamond
films |
P2.6.2 |
| Bonifaci, Nelly |
Mobility of negative and positive ions in liquid and gaseous Helium at 4.5
K under different pressures. |
P1.2.10 |
| Cryoplasma in Helium at 4.5 K under
different pressures. |
P3.9.2 |
| Bonitz, M. |
Complex plasmas - a laboratory for selforganization |
GL4 |
| Bonnin, Xavier |
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 |
| Booth, Jean-Paul |
Gas temperature and electron density measurements in Ar and Ar-Cl2 ICP
discharges |
P1.5.4 |
| Hybrid Model of Parallel
Plate RF Discharges in H2: Effect of DC and Tailored Voltage Waveforms |
P1.6.5 |
| Borisenko, Alexander |
Coulomb clusters in a cusp magnetic trap under microgravity condition |
P2.7.6 |
| Bortoleto, Jose Roberto |
Plasma Surface Treatment of Commercial Polymers for use in Food Packaging |
P2.4.12 |
| Surface Treatment of
Commercial Polymers for Food Packaging by Plasma Immersion Ion Implantation |
P2.4.13 |
| Botti, Laura |
Plasma Surface Treatment of Commercial Polymers for use in Food Packaging |
P2.4.12 |
| Bouarouri, Assia |
Organization of dielectric barrier discharges in the presence of
structurally-inhomogeneous wood substrates |
P2.7.7 |
| Boubert, Pascal |
High enthalpy air plasma / SiC surface interactions |
P2.4.4 |
| Boufendi, Laďfa |
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 |
| Study of spacial
evolution of EEDFs and plasma parameters in RF-CCP argon stochastic mode
discharge by Langmuir probe |
P3.5.6 |
| Electrical characterization of the correlation between the dust particles
size and the plasma sheath impedance in a capacitively coupled radiofrequency
dusty discharge |
P1.5.8 |
| Boullart, Werner |
Modeling SiCl4/O2 plasmas used for depositing SiO2 coatings or mask damage
recovery |
P2.3.1 |
| Bourdon, Anne |
Numerical simulation of the interaction of two streamer discharges in air |
P1.6.9 |
| Consequences of
slightly different ground configurations on the propagation of ionisation
waves inside capillary tubes |
P3.10.10 |
| Simulation of helium
discharge dynamics in thin dielectric tubes at atmospheric pressure and
discharge interaction with tube surface |
P2.3.14 |
| Numerical study of the
influence of plane dielectric obstacles in the path of a streamer discharge
in air at atmospheric pressure |
P2.6.1 |
| Numerical simulation of
successive nanosecond pulsed discharges in air at atmospheric pressure |
P1.6.10 |
| Boutaud, Bertand |
Investigations in SF6 and Cl2/Ar plasmas used for titanium deep etching by
means of mass spectrometry |
P2.4.5 |
| Bowden, Mark |
Application of microplasmas for satellite propulsion |
P3.11.4 |
| A simple optical emission
spectroscopy technique for detecting EEDF changes in low-pressure pulsed-RF
plasma |
P1.9.10 |
| Diamond-based microhollow
cathode discharges |
P1.10.6 |
| Bragança, I.M.F. |
Experimental and modelling characterization of micro-EDM plasmas |
P3.5.3 |
| Braithwaite, Nicholas |
A simple optical emission spectroscopy technique for detecting EEDF
changes in low-pressure pulsed-RF plasma |
P1.9.10 |
| Branco, Joaquim |
Influence of the voltage waveform of a DBD discharge on the conversion of
CH4 and CO2 |
P2.3.10 |
| Brandenburg, Ronny |
On the discharge mechanism and electric field strength development in
negative corona Trichel pulses in atmospheric pressure air |
P1.5.18 |
| Comparison of pulsed and sinusoidal operated barrier discharges |
P1.5.9 |
| Experimental estimation
of capacitances in pulsed barrier discharges |
P1.5.17 |
| Bras, Fréderic |
Numerical modelling of an atmosperic pressure plasma reactor using control
volume methods and unstructured grids |
P1.6.2 |
| Bredin, Jerome |
Evolution of electron temperature and negative ion density through a
magnetic barrier |
P3.5.10 |
| Brehmer, Florian |
Plasma-assisted CO2 processing for energy storage |
W1.6 |
| CO2 dissociation
studies in dielectric barrier discharges |
P2.10.7 |
| Fuel synthesis through
CO2 reduction in a plasma expansion |
P1.5.19 |
| Briefi, Stefan |
Investigations of indium halides as radiator in ICPs for lighting
applications |
P1.9.6 |
| Brinza, Ovidiu |
Chemical kinetics of H2/CH4 plasmas for high pressure/high power growth
conditions used in diamond MPACVD |
P2.3.8 |
| Britun, Nikolay |
Time-Resolved Optical Emission Spectroscopy of a Surfaguide Flowing Gas
Microwave Discharge |
P1.5.12 |
| 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 |
| Bruggeman, Peter |
Time and spatially resolved OH density in a nanosecond pulsed discharge in
atmospheric pressure He-H2O mixtures |
P1.10.8 |
| Brémare, Noémie |
High enthalpy air plasma / SiC surface interactions |
P2.4.4 |
| Bultel, Arnaud |
State-to-state modeling of a nitrogen plasma applied to the atmospheric
entry problems |
P3.11.11 |
| Modeling of the
excitation non equilibrium of CO2 plasma flows obtained in high enthalpy wind
tunnels |
P3.6.10 |
| Relaxation of
excited states calculated with CoRaM-Air, the CORIA's Collisional-Radiative
model for air |
P3.11.9 |
| Collisional-radiative
modeling of a thermal Helium beam penetrating the edge plasma of a Tokamak |
P3.5.9 |
| Determination of
electron parameters in nascent aluminum laser-induced plasma by means of
Thomson scattering |
P3.12.8 |
| Bundaleska, Neli |
Pretreatment of sugarcane biomass by atmospheric pressure microwave
plasmas |
P3.4.5 |
| Bčs, Alexandre |
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 |
| Béchu, Stéphane |
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 |
| Böke, Marc |
Instabilities in High Power Pulsed Magnetron Plasmas |
P2.8.10 |
| Bösel, Andre |
Self-consistent 2D fluid modelling of a microwave excited plasma in argon |
P1.6.13 |
|
|
|