| Name |
Institute |
Country |
Titel |
Session |
| Akishev, Y. |
Institute for Innovation and
Fusion Research |
Russia |
Electrical and optical
investigations of transient high pressure discharge
phenomena |
I10 |
| Arrayas, M. |
CWI, Clusters MAS |
The Netherlands |
Streamer propagation as a
pattern formation problem |
P1.1 |
| Bakunin, O. |
Kurchatov Institute of Atomic
Energy |
Russia |
Correlations and nonlocal
electrons distribution function |
P2.1 |
| Becker, K. |
Stevens Institute of
Technology |
USA |
Vacuum Ultraviolet Spectroscopy
of Microhollow Cathode Discharge |
P1.2 |
| Becker, F. |
Physikalisch- technische
Bundesanstalt |
Germany |
n.c. |
. |
| Brockhaus, A. |
fmt- Forschungszentrum |
Germany |
n.c. |
. |
| Brockhinke, A. |
Physikalische Chemie I |
Germany |
Quench-free concentration
measurements in high-temperaturesystems by picosecond LIF |
I3 |
| Buck, V. |
TechnischePhysik |
Germany |
n.c. |
. |
| Bussiahn, R. |
Institut für Niedertemperatur-
Plasmen |
Germany |
Laser Atom Absorption
Spectroscopy on Micro Hollow Cathode Discharges in Xenon |
P2.2 |
| Czarnetzki, U. |
Universität Essen |
Germany |
n.c. |
. |
| Döbele, H. |
Universität GH Essen |
Germany |
TALIF Calibration with Noble
Gases for Quantitative Atomic Density Measurements |
P2.11 |
| Ebert, U. |
CWI, Cluster MAS |
The Netherlands |
Superfast fronts of impact
ionization in initially biased p^+ - n - n^+ - structures |
P1.3 |
| Ehlbeck, J. |
INP Greifswald |
Germany |
CARS diagnostics of atmospheric
microwave plasmas |
P2.3 |
| Fateev, A. |
St. Petersburg
University |
Russia |
Variations of the gas
temperature in Barrier discharges |
P1.4 |
| Gans, T. |
Universität Essen |
Germany |
Determination of Quenching
Coefficients by Time-Resolved Emission Spectroscopy |
P2.4 |
| Graham, B. |
The Queen´s University of
Belfast |
Northern Ireland |
Spectroscopic Characterisation
of an Atmospheric Pressure Glow Discharge |
P1.5 |
| Guibalov, V. |
Moscow State
University |
Russia |
The Structure and Productivity
of the Barrier Discharge |
P2.5 |
| Kimura, M. |
Yamaguchi University |
Japan |
Electron Scattering from Excited
Plasma Processing Molecules |
P1.6 |
| Kogelschatz, U. |
- |
Switzerland |
Filametary and diffuse barrier
discharges |
I1 |
| Kong, M. |
Loughborough
University |
United Kingdom |
Selection of Suitable Diagnostic
Techniquesfor an RF atmospheric Pressure Plasma |
P2.6 |
| Kulikovsky, A. |
Research Center |
Germany |
Numerical modeling of efficiency
of radicals production bypositive streamer in air in strongly
nonuniform fields |
P1.7 |
| Laux, C. |
Stanford University |
USA |
Diagnostics of atmospheric air
plasmas |
I11 |
| Lavrov, B. |
St. Petersburg State
University |
Russia |
Mysteries and Unknowns of Single
Bubble Sonoluminiscence from viewpoint of plasma
spectroscopy |
P2.7 |
| Leipold, F. |
Old Dominion
University |
USA |
Electron Density and Temperature
Measurements in Pulsed Atmospheric Pressure Air
Plasmas |
P1.8 |
| Leys, C. |
Department of Applied
Physics |
Belgium |
Diagnostics of ExB-driven
gliding discharges |
P2.8 |
| Lindmayer, M. |
TU Braunschweig,HTEE |
Germany |
n.c. |
. |
| Marode, E. |
Laboratoire de Physique des Gaz
et des Plasmas |
France |
Diagnostics and modelling of
high pressure streamer discharges |
I5 |
| Massines, F. |
Laboratoire de Génie Electrique
de Toulouse (LGET) |
France |
Easy to implement diagnostics of
a glowdielectric barrier discharge |
I4 |
| Mit'ko, S. |
P.N.Lebedev Pshysical
Institute |
Russia |
Nonselfsustained uniform DC
discharge with controlled electron energy |
P1.9 |
| Mizeraczyk, J. |
Centre of Plasma and Laser
Engineering |
Poland |
LIF Diagnostics of NO Molecules
in Atmospheric-Pressure DC Streamer Coronas Usedfor NOx
Abatement |
P2.9 |
| Monna, V. |
Centre de physique
atomique |
France |
n.a. |
. |
| Morvova, M. |
Institute of Physics |
Slovakia |
Utilisation of CO2, fixation of
nitrogen and exhaust gas cleaning in electric discharge with
electrode catalysis |
P2.10 |
| Muraoka, K. |
Interdisciplinary graduate
school |
Japan |
Laser Thomson Scattering
Diagnostics of Non-Equilibrium High Pressure Plasmas |
P1.10 |
| Napartovich, A. |
Institute for Innovation and
Fusion Research |
Russia |
Dynamics of excited nitrogen
states in glow- and afterglow phases of discharge: experiment and
modeling |
P1.11 |
| Niemi, K. |
Universität Essen |
Germany |
TALIF Calibration with Noble
Gases for Quantitative Atomic Density Measurements |
P2.11 |
| Nutsch, G. |
Technische Universität |
Germany |
Application of a DBD jet for
surface modification and coating |
P1.18 |
| Ochkin, V. |
Head of Department |
Russia |
Electric field measurement in
high pressure discharges |
I9 |
| Oda, T. |
Department of Electronic
Engineering |
Japan |
Application of LIF Technique to
Atmospheric Pressure Plasmas |
I7 |
| Pasch, E. |
INP Greifswald |
Germany |
CARS diagnostics of atmospheric
microwave plasmas |
P2.3 |
| Penache, M. |
J.W. Goethe University |
Germany |
Optical Investigations of High
Pressure Glow Discharge Based on MSE Arrays |
P1.12 |
| Petzenhauser, I. |
Universität Erlangen |
Germany |
Spectroscopic investigations of
high-pressure microhollow cathode discharges |
P2.12 |
| Pietsch, G. |
RWTH Aachen |
Germany |
Properties of dielectric barrier
discharges in different arrangements |
P1.13 |
| Ricard, A. |
Université Paul
Sabatier |
France |
n.a. |
. |
| Rousseau, A. |
Laboratoire de Physique des Gaz
et des Plasmas |
France |
Time resolved LIF measurements
for the study of NO removal : influence of H2O |
P2.13 |
| Rutgers, W. |
KEMA Transmission &
Distribution |
The Netherlands |
Diagnostics for Environmental
Aspects of Pulsed Atmospheric Discharges |
I8 |
| Schulz- v.d.Gathen, V. |
Universität Essen |
Germany |
Determination of Quenching
Coefficients by Time-Resolved Emission Spectroscopy |
P2.4 |
| Setser, D. |
Kansas State
University |
USA |
Quenching Reactions of
Electronically Excited Atoms |
I6 |
| Sijacic, D. |
CWI, Cluster MAS |
The Netherlands |
Temporal instabilities in DC
driven 'barrier' discharges |
P1.14 |
| Simek, M. |
Institute of Plasma
Physics |
Czech Republic |
Diagnostics and modeling of
streamer induced emission in pulsed positive corona
discharge |
P2.14 |
| Starikovskaia, S. |
Moscow Institute of Physics and
Technology |
Russia |
Destruction of Methane by
Nanosecond High-Voltage Discharge |
P1.15 |
| Stark, R. |
Old Dominion
University |
USA |
Pulsed Electron Heating in
Atmospheric Pressure Glow Discharges |
P2.15 |
| Steiger, A. |
Physikalisch- Technische
Bundesanstalt Berlin |
Germany |
Mapping of the Atomic Hydrogen
Density in Combustion Processes at Atmospheric Pressure by
Two-Photon Polarization Spectroscopy |
P1.16 |
| Tepper, J. |
TU braunschweig,
HTEE |
Germany |
n.c. |
. |
| Uhlenbusch, J. |
Institut für Laser- u.
Plasmaphysik |
Germany |
CARS diagnostics of high
pressure discharges |
I2 |
| van Veldhuizen, E. |
Group EPG |
The Netherlands |
Fast imaging of streamer
propagation |
P2.16 |
| Wagner, H. |
Ernst-Moritz-Arndt Universität
Greifswald |
Germany |
Spatio-temporal resolved
diagnostics of the single filament barrier discharge in
air |
P1.17 |
| Wiesemannn, K. |
Institut für
Experimentalphysik |
Germany |
Variations of the gas
temperature in Barrier discharges |
P1.4 |
