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|
| DYKE
AWARD ADDRESS |
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|
A0-DA |
Explozive Electron Emission from
Liquid-Metal Cathodes |
D.
I. Proskurovsky |
|
| A:
BREAKDOWN AND FLASHOVER |
|
|
|
A1. Vacuum breakdown and
pre-breakdown phenomena |
|
|
A1-I01 |
Pulsed High-Voltage
Vacuum-Insulation Design |
J.G. Leopold, C. Leibovitz, I.
Navon |
|
|
A1-O01 |
Electrode Conditioning Mechanism
Based on Pre-breakdown Current under Non-uniform Electric Field in Vacuum |
H. Okubo, T. Yasuoka, T. Kato,
K. Kato |
|
|
A1-O02 |
Numerical Simulation of Vacuum
Prebreakdown Phenomena in a Cathode Microprotrusion at Subnanosecond Pulse
Durations |
G. A. Mesyats, I.V. Uimanov |
|
|
A1-O03 |
Analysis and Numerical
Simulation of Secondary Electron Emission of an Insulator Submitted to an
Electron Beam |
A.
Aoufi, G. Damamme |
|
|
A1-P01 |
Influence of Contact Contour on
Breakdown Behaviors in Vacuum under Uniform Field |
Z. Liu, S. Cheng, Y. Zhang, L.
Yang, Y. Geng, J. Wang |
|
|
A1-P02 |
PIC Simulation of the Electric
Field at a Cathode with a Surface Microprotrusion Under Intense Field
Emission |
I. V.
Uimanov |
|
|
A1-P03 |
Method of suppression of
poro-emission |
N. V. Tatarinova, D. N.
Sinelnikov |
|
|
A1-P04 |
Measurement of Surface and
Volume Resistivity for Alumina Ceramics under Vacuum Condition |
Y.Yamano,
T. Komiyama, M.Takahashi, S. Kobayashi, K.Nitta, Y. Saito |
|
|
A1-P05 |
Investigation
of Pulse Current Occurrence Observed for Spark Conditioning Process of Ultra
High Vacuum Gap |
S.Kobayashi, M.Kawada, Y.
Yamano, Y. Saito |
|
|
A1-P06 |
Real-Time
Measurement of Surface Charge Distributions on Insulator before and after
Vacuum Surface Discharge Events |
T. Ochiai, Y. Yamano,
S.Kobayashi, Y. Saito |
|
|
A1-P07 |
Explosive
electron emission from a ferroelectric surface initiated in triple
junctions |
G.A. Mesyats, V.G. Shpak |
|
|
A1-P08 |
Dielectric strength of the metal
vapour |
G. Sandolache, S.
Rowe, S-S. Ciobanu, D. Hong |
|
|
A2. Surface discharges
and flashover phenomena |
|
|
|
A2-P01 |
Electrostatic Potential
Distribution Characteristics of Glass Surfaces in Vacuums |
H.
Morita, T. Yokosuka, A. Hatanaka, R. Takeuchi, Y. Dan, M. Doi |
|
|
A2-P02 |
Influence of Surface Charges on
Alumina Dielectrics on Impulse Flashover Characteristics in Vacuum |
H. Kato, K. Kato, A. Morita, H.
Okubo |
|
|
A2-P03 |
Influence
of Electrode Contacts on Flashover Characteristics of Alumina and PTFE under
Pulsed Voltage in Vacuum |
Nan Zheng,
Kai-Kun Yu, Guo-Qing Liu, Guan-Jun Zhang |
|
|
A2-P04 |
Investigation
on Novel Parameter Characterizing Surface Flashover Phenomena in Vacuum |
Guan-Jun Zhang,
Kai-Kun Yu, Guo-Qing Liu, Jie Tian |
|
|
A2-P05 |
Factors affecting the Charging
Characteristics of Solid Insulators in Vacuum – Influence of Voltage Shape
and Pressure |
O. Yamamoto, D. Tkeda, H.
Akiyama, Y. Ohsawa, H. Morii |
|
|
A2-P06 |
Pulsed
Flashover Developing across Alumina Ceramic in Vacuum |
Kai-Kun Yu,
Guan-Jun Zhang, Nan Zheng, Guo-Qing Liu |
|
|
A2-P07 |
Carbon and tungsten sputtering
in a helium magnetron discharge |
V. Tiron, C. Andrei, A. V.
Nastuta, G. B. Rusu, C. Vitelaru and G. Popa |
|
| B:
VACUUM ARCS |
|
|
|
B1. Vacuum interrupters
and their applications |
|
|
|
B1-I01 |
In
Search for Performance Indicators of Short-Circuit Current Interruption in
Vacuum |
R.P.P. Smeets, E.P.A. van Lanen,
M. Popov, L. van der Sluis |
|
|
B1-I02 |
Interruption
Phenomenon of Various Electrode Materials in Vacuum |
M. Sugita, N. Ide, O. Tanaka, S.
Yanabu, S. Okabe, G. Ueta, Xiaojun Wang, Wenbin Wang |
|
|
B1-O01 |
Studies
in Inverse Magnetron Discharges of Vacuum Interrupters: Part 1 - Variations
in Electric Field |
L. T.
Falkinghamm, R. Reeves, C. H. Gill, S. Mistry |
|
|
B1-O02 |
Influence
of Glow Discharge Pre-Treatment on Dielectric Parameters in Vacuum Gaps |
M.
Budde, M. Kurrat |
|
|
B1-O03 |
50 Years of TMF Contacts Design
Considerations |
H.
Schellekens |
|
|
B1-O04 |
Numerical
Simulation of the Motion of a Cathode Spot System on a Planar Electrode in
Magnetic Field |
V. P. Afanas’ev, A. M.
Chaly, V. A. Kuptsov, S. M. Shkol'nik |
|
|
B1-O05 |
Vacuum Interrupters in High
Voltage Applications |
X. Godechot, M. Schlaug, U. Ernst, M. Hairur, J. Jenkins |
|
|
B1-O06 |
The
Basic Investigation of the High-speed VCB and Its application for the DC
Power System |
Y. Niwa, J. Matsuzaki, K.
Yokokura |
|
|
B1-P01 |
A
Fast Making Switch Based on Triggered Vacuum Switch and Fast Vacuum Circuit
Breaker |
Fan Xing-ming, Zhang Xin , Zou
Ji-yan |
|
|
B1-P02 |
Application
Research on the Full-voltage Synthetic Making Test System for High Voltage
Switches |
Fan Xing-ming, Zou Ji-yan, Liao
Min-fu |
|
|
B1-P03 |
Dielectric
Strength of Two Series-Connected Vacuum Interrupters |
D.
F. Alferov, G. S. Belkin, A. A. Pertsev, Yu. G. Romochkin, L. A. Rylskaia, V.
A. Sidorov |
|
|
B1-P04 |
Simulation
and Testing of Operating Characteristic of 27.5kV Vacuum Circuit Breaker with
Permanent Magnetic Actuator |
Li Wei, Fang Chun-en, Zhou
Lili, Wang Jun |
|
|
B1-P05 |
Research
on a Gravity Heat Pipe for High Voltage Vacuum Interrupter |
Xiaoling Yu,
Zhiyuan Liu, Quanke Feng, Yijiang Wei, Jimei Wang |
|
|
B1-P06 |
Controlled
Vacuum Circuit Breaker for Transformer Inrush Current Minimization |
Duan Xiongying,
Huangzhihui, Liao Minfu, Zou Jiyan |
|
|
B1-P07 |
Relationship
between Displacement Characteristics of a 126kV Vacuum Circuit Breaker and
Spring Type Operating Mechanism |
Li Yu, Yingsan Geng, Zhiyuan Liu, Liqiong Sun, Jianjun Yao |
|
|
B1-P08 |
Measurement
of Internal Pressure of Vacuum Tubes by Micro-discharge and Emission
Current |
Zhao Ziyu, Dan Shuheng, Jiang
Xiuchen, Ma Naixiang, Luo Liwen, Song Huansheng, Liu Chongfang |
|
|
B1-P09 |
Design
of High Precision Detecting System for Vacuum Circuit Breaker |
Yundong
Cao, Shuxin Liu, Chunguang Hou,
Xiaoming Liu |
|
|
B1-P10 |
Vacuum switch-disconnectors : 1.
Dielectric behaviour |
H. Schellekens, A. Henon, P.
Picot |
|
|
B1-P11 |
Vacuum switch-disconnectors: 2.
Compliance with insulation coordination |
H. Schellekens, I. Gall, D.
Goulielmakis |
|
|
B1-P12 |
Capacitor Bank
Switching with Vacuum Circuit Breakers |
H.
Schellekens |
|
|
B1-P13 |
Research
on Synchronous Breaking Technology of Vacuum Circuit Breaker |
Shaohua Ma, Zhiyuan Cai, Jimei
Wang |
|
|
B1-P14 |
An
approach of Improve Permanent Magnetic Actuator of Vacuum Circuit
Breaker |
Zhiyuan Cai, Shaohua Ma, Jimei
Wang |
|
|
B1-P15 |
Measurements by residual gas
analysis (RGA) inside vacuum interrupters / devices |
D.
Gentsch, T. Fugel |
|
|
B1-P16 |
DC vacuum circuit-breaker |
D.
Alferov, A. Budovsky, D. Evsin, V. Ivanov, V. Sidorov, V. Yagnov |
|
|
B1-P17 |
The
Optimal Design and Dynamic Characteristics Analysis of Electric Actuator
(EMFA) for 170kV/50kA VCB based on Three-link structure |
Jong-Ho Kang, Sang-Yeop Kwak,
Rae-Eun Kim, Hyun-kyo Jung |
|
|
B1-P18 |
Dynamic Behavior of a Vacuum
Circuit Breaker Mechanism |
S. Nitu, C. Nitu, Gh.
Tuluca, Gh.Dumitrescu |
|
|
B1-P19 |
Effects of Interface
Characteristics of Cu/Cr Phases on the Contact Performance of Cu-25Cr Alloy
Contact Material |
Baihe Miao, Hui Guo, Yan
Zhang, Guoxun Liu |
|
|
B1-P20 |
The Analysis of High-speed
Repulsion Actuator and Performance Comparisons with Permanent Magnetic
Actuator in Vacuum Circuit Breaker |
Dong Enyuan,
Wang Yongxing, Cong Jiyuan, Zou Jiyan |
|
|
B1-P21 |
Experience
Regarding Tests on Medium Voltage Equipement with Vacuum Switching Devices
at I C M E T Craiova |
George Curcanu, Constantin
Ilinca, Constantin Iancu |
|
|
|
B2. Switching in vacuum
and related phenomena |
|
|
|
B2-I01 |
The Intrinsic Limits of Vacuum
Interruption |
S. W.
Rowe |
|
|
B2-O01 |
The transition from the molten
bridge to the metallic phase bridge column arc between electrical contacts
opening in vacuum |
P.G.
Slade |
|
|
B2-O02 |
Switching
Behavior of Different Contact Materials under Capacitive Switching
Conditions |
F.Körner, M. Lindmayer,
M.Kurrat, D. Gentsch |
|
|
B2-O03 |
An Investigation into the
Dependence of the Arc Voltage on the Parameters of the Short-Circuit Current
and the Design of the Vacuum Interrupter |
S. Kulkarni,
S. Rajan, L. Andrews, R. Rajhans, J.M. Thomas |
|
|
B2-P01 |
Restike
Characteristics on Capacitive Current Breaking in Vacuum |
T. Yoshida, S.
Sato, S. Miki, T. Harada, H. Koga |
|
|
B2-P02 |
Method of Improving Cathode
Surface |
A.A. Emelyanov, E.A. Emelyanova |
|
|
B2-P03 |
Experimental investigations on
the Triggering Characteristic of Triggered Vacuum Switch under DC and AC Load |
Fan Xing-ming , Zhang Xin, Zou
Ji-yan |
|
|
B2-P04 |
Experimental
Study of Dynamics of Plasma Formation in a Vacuum-Arc Discharge |
E.F. Prozorov, D.K. Ulyanov,
K.N., Ulyanov, V.A. Fedorov |
|
|
B2-P05 |
Flow
Characteristics of Arc Jet Plasma along Open Field Lines |
K.
Yoshida, Y. Nagahara, T. Shibata, A. Nezu, H. Matsuura, H. Akatsuka |
|
|
B2-P06 |
Vacuum
Breakdown Characteristics of Oxygen-Free Copper Electrodes with Different
Keeping Methods and Terms |
K. Minaminosono, Y. Yamano, S.
Kobayashi, Y. Saito |
|
|
B2-P07 |
Short Arcs’ Interrupting
Capability Influence on the Interrupting Capability of Three-Phase VCB |
I.N. Poluyanova, B. A. Skorokhod |
|
|
B2-P08 |
Electric-Field Enhancement and
Ion-Flux Focusing at the Multiwire Cathode of a High-Current Plasma-Filled
Diode |
E.V. Nefedtsev, G.E. Ozur |
|
|
B2-P09 |
A
Vacuum Interrupter Hybrid Special Current-limiting Fuse to Compose a High
Short-circuit Current Interrupting Device |
Wang Ji-mei, Cai Jiong |
|
|
B2-P10 |
Numerical
estimation of the electro-thermal conditions for vacuum switcher chamber
operation |
Dan Olaru, Calin Florin |
|
|
B2-P11 |
Late Breakdown
Phenomena in Vacuum Interrupters |
M.
Schlaug, L. Dalmazio, U. Ernst, X. Godechot, S. Kantas, C. Triaire |
|
|
B2-P12 |
The
Relations between the Voltage Distribution Ratio and
the Post Arc Current in Double-Break Vacuum Circuit Breakers |
M.
Sugita , O. Tanaka, H. Kasuya, T. Igarashi, S.Okabe, G. Ueta ,Y. Matsui, E.
van Lanen, S. Yanabu |
|
|
B2-P13 |
Sintered Electrical Contacts for
Vacuum Current Interruption |
P. Lungu, E. Enescu, M. Lungu,
D.Pavelescu, G. Dumitrescu, P. Anghelita |
|
|
B4. Interaction of vacuum
arc with magnetic field |
|
|
|
B4-I01 |
Experimental
Investigations on Cathode Spots and Dynamical Vacuum Arc Structure in an
Axial Magnetic Field |
W.
Hartmann, A. Lawall, R. Renz, N. Wenzel, W. Wietzorek |
|
|
B4-O01 |
The
influence of axial magnetic filed distribution on high-current vacuum
arc |
Zongqian Shi, Shenli Jia,
Xiaochuan Song, Zhigang Liu, Hong Dong, Lijun Wang |
|
|
B4-O02 |
Optical
investigation of vacuum arc cathode spot plasma jet in axial magnetic
field |
A.M.
Chaly, A.A. Logatchev, R.A. Taktarov, K.K. Zabello, S.M. Shkol’nik |
|
|
B4-O03 |
Comparison
of Vacuum Arc Behaviors for Slot Type Axial Magnetic Field Contacts with and
without Iron Plates |
Zhiyuan
Liu, Dong Wang, Mingzhe Rong, Jimei Wang, Quan Wang |
|
|
B4-O04 |
Modeling and simulation results
of a high current vacuum arc in a transverse magnetic field |
T. Delachaux, O. Fritz, D. Gentsch, E.
Schade, D.L. Shmelev |
|
|
B4-P01 |
The
initial expansion process in triggered vacuum arc under different axial
magnetic field distributions |
Zongqian
Shi, Shenli Jia, Hong Dong, Zhigang Liu, Xiaochuan Song, Lijun Wang |
|
|
B4-P02 |
A
New Axial Magnetic Field Contact for 126kV Single Break Vacuum
Interrupters |
Yingyao Zhang,
Zhiyuan Liu, Yingsan Geng, Jianjun Yao |
|
|
B4-P03 |
Emission
spectra of high-current vacuum arc stabilized by axial magnetic field |
V.A.
Bugaev, V.L. Dernovsky, A.A. Logatchev, K.K. Zabello, S.M. Shkol’nik |
|
|
B4-P04 |
Analysis
of Vacuum Arc Motion Characteristic of Cup-type Transverse Magnetic Field
Contacts Based on Orthogonal Design |
Li Yu, Shun
Yuan, Feng Li, Yundong Song, Shaohua Ma |
|
|
B4-P05 |
Hydrodynamic
Model of Plasma Jet of Cathode Spot of Vacuum Arc in the Presence of External
Axial Magnetic Field |
V. Yu. Anan’in, V. P.
Afanas’ev |
|
|
B4-P06 |
Study
of the Effect of a Vacuum Arc Current Interruption in a Nonuniform Magnetic
Field |
D. Alferov, Ya. Londer, K.
Ulyanov |
|
|
B5. Vacuum arc physics |
|
|
|
B5-I01 |
Modern
theory of plasma-cathode interaction in high-pressure arc discharges and
perspectives of its application to cathode spots in vacuum arcs |
M. S.
Benilov |
|
|
B5-O01 |
Characteristics of plasma flow
from a pulse vacuum arc |
V.L. Paperny, A. A. Chernikh |
|
|
B5-O02 |
Research on Non-equilibrium
Composition Solution of Vacuum Arc Plasma |
X.M. Liu, H.M. Lin, Y.D. Cao, B. Yang |
|
|
B5-O03 |
A Summary of Recent Experimental
Research on Ion Energy and Charge States of Pulsed Vacuum Arcs |
E.M. Oks, G.Yu. Yushkov, A.
Anders |
|
|
B5-O04 |
Time-resolved Spectroscopy on
Cathode Spots of a Vacuum Discharge |
D.
Uhrlandt, R. Methling, S. Popov, A. Batrakov, K.D. Weltmann |
|
|
B5-P01 |
Mass-Energy Analysis of Ion
Plasma Species at Vacuum Discharges with Liquid Ga-In Cathode |
S.A. Popov, E.L. Pryadko |
|
|
B5-P02 |
Prediction of arc distribution
during transition and diffuse column modes of the vacuum arc |
M.
Keidar, E.D. Taylor |
|
|
B5-P03 |
Current constriction phenomena
in high-current vacuum arc and its influence factors |
Lijun
Wang, Shenli Jia, Ling Zhang, Dingge Yang, Zongqian Shi |
|
|
B5-P04 |
Plasma Stability in a Triggered
Vacuum Switch |
Zhengyang Zhou, Minfu Liao,
Huajun Dong, Dapeng Bu, Jiyan Zou |
|
|
B5-P05 |
Ignition
and Burning of the Nonself-Sustained Arc Discharge in Vapors of the Anode
Material |
Anatolii
G. Borisenko |
|
|
B5-P06 |
High Charge State Ions Extracted
from Metal Plasmas in the Transition Regime from Vacuum Spark to High Current
Vacuum Arc |
G.
Yu.Yushkov, A.Anders |
|
|
B5-P07 |
Particle Simulation of Argon
Electrons in Direct Current Discharge |
Jing Li, Yundong Cao, Xiaoming
Liu, Chunguang Hou |
|
|
B5-P08 |
Ion-molecule Collision Modeling
of Plasma Discharge |
Yundong
Cao, Jing Li, Jiyan Zou, Xiaoming Liu, Chunguang Hou |
|
|
B5-P09 |
Microexplosion Initiation by
Plasma Heating of the Microprotrusion at the Wall |
S. A. Barengolts,
G. A. Mesyats, M. M. Tsventoukh |
|
|
B5-P10 |
An Investigation of the
Development of New Emission Center Within the Cathode Spot of Vacuum Arc |
Maxim
B. Bochkarev |
|
|
B5-P11 |
3-D Numerical Analysis of
Diffuse Vacuum Arcs with an Axial Magnetic Field |
J.-C.
Lee, S.-H. Cho, H.-G. Lee, M.–J. Choi, J.–R. Kwon, Y.-J. Kim |
|
|
B5-P12 |
Plasma parameters after a forced
extinguishing of the diffuse vacuum arc |
Antoni
Klajn |
|
|
B5-P13 |
Droplet in Vacuum Arc Plasma:
Theoretical Models of Droplet’s Life |
Andrey V. Kozyrev, Alexey G
Sitnikov |
|
|
B5-P14 |
Gas Discharge Simulation of
Vacuum Circuit Breaker Based on Fractal Theory |
Yundong
Cao, Dongsheng Yuan, Jing Li, Xiaoming Liu, Shan Zeng |
|
|
B5-P15 |
Model of a Short Vacuum Arc
Maintenance |
I.I.
Beilis |
|
|
B5-P16 |
Dynamic Response Characteristic
of Small Current Vacuum Arc |
K. Toyama, T. Akamine, E. Kaneko |
|
|
B5-P17 |
Properties
of Intermediate Frequency Vacuum Arc under Axial Magnetic field |
Wang Jing, Wu Jianwen, Zhu
Liying |
|
|
B5-P18 |
Dynamics of cathode spot plasma
parameters in spark and arc stages of vacuum discharge |
A.
Batrakov, D. Uhrlandt, S. Popov, R. Methling, K.-D. Weltmann, E. Pryadko |
|
|
B5-P19 |
Experimental investigations of
electron vortices in high-current ion beam in longitudinal magnetic field at
strong gradients of electron density |
Chekh
Yu. |
|
|
|
B6. Modeling and computer
aided design of VCB and others |
|
|
B6-I01 |
Physical Modeling and Numerical
Simulation of Constricted High Current Vacuum Arcs under Action of Transverse
Magnetic Field |
D.L. Shmelev, T. Delachaux |
|
|
B6-O01 |
Development of a FEM Simulation
of Axial Magnetic Field Vacuum Arcs |
W. Hartmann,
A. Hauser, A. Lawall, R. Renz, N. Wenzel |
|
|
B6-O02 |
DC Vacuum Arc Extinction in a
Transverse Axisymmetric Magnetic Field |
D. Alferov, G. Belkin, D.
Yevsin |
|
|
B6-O03 |
Plasma decay modeling during the
post-arc phase of a vacuum circuit breaker |
P.
Sarrailh, L. Garrigues, G.J.M. Hagelaar, J.-P. Boeuf, G. Sandolache, S.W.
Rowe |
|
|
B6-P01 |
Insulation design and analysis
on high voltage vacuum interrupter |
Xiu Shixin, Zhang Rui, Pang
Xianhai |
|
|
B6-P02 |
Simulation and Analysis of
Cup-type Axial Magnetic Field Contacts in Vacuum Interrupter |
Xiu Shixin, Zhang Rui, Zhang
Min |
|
|
B6-P03 |
The Effect of Boundary
Conditions on the Distribution of Physical Parameters in a High-Current
Vacuum Arc Discharge |
Ya. I. Londer, K. N. Ulyanov |
|
|
B6-P04 |
Influence of Uniformity of the
Axial Magnetic Field in a Vacuum Interrupter on the performance of the
Contacts |
S.
Kulkarni, S. Rajan, L. Andrews, R. Rajhans, J.M. Thomas |
|
|
B6-P05 |
Two-dimensional transient
magneto-hydrodynamic modeling of vacuum arc |
Ling
Zhang, Lijun Wang, Shenli Jia, Dingge Yang, Zongqian Shi |
|
|
B6-P06 |
The numerical solving of
problems of synthesis of electron-optical systems |
D.O.Beljaev, O.K. Nazarenko,
V.M. Sveshnikov |
|
|
B6-P07 |
Numerical Implementation and
Insulation Analyses for Vacuum Interrupter |
X.M. Liu, Q.M. Xu,
Y.D. Cao, B. Yang, D.M. Zhu |
|
|
B6-P08 |
Investigation on Hybrid Arc
Model and Influencing Factors in Vacuum Circuit Breaker |
Yundong
Cao, Xu Jiang, Chunguang Hou, Jing Li, Xiaoming Liu |
|
|
B6-P09 |
Estimation of Pulse Electric
Strength of Vacuum Insulation |
E.A.
Emelyanova |
|
|
B6-P10 |
Simulation of vacuum arc dynamic
process with consideration of the change of gap distance |
Dingge
Yang, Lijun Wang, Shenli Jia, Ling Zhang, Zongqian Shi |
|
|
B6-P11 |
Investigation and Development of
High Voltage Vacuum Interrupters |
Hyeong Goo Lee, Jung Se Kim,
Myung Jun Choi, Jung Lock Kwon |
|
|
B6-P12 |
An Efficient Method for RF
Integrated Circuit Analysis |
L. Dumitriu, M. Iordache, C.
Popescu |
|
|
B6-P13 |
Computation of Coupled
Current-magnetic Field for Vacuum Interrupter |
X.M. Liu, X.J. Shao, D.Y. Yuan,
J. Y. Zou, Y.D. Cao |
|
| C:
APPLICATIONS |
|
|
|
C1. Surface modification
and other plasma applications |
|
|
C1-I01 |
Surface and Interface Physical
Phenomena Induced by Flashover across Solid Dielectrics in Vacuum |
Guan-Jun Zhang,
Nan Zheng, Kai-Kun Yu, Xi-Wei Hao |
|
|
C1-P01 |
Critical current densities under
action of charged particles on the structural materials |
G.I.
Kostyuk |
|
|
C1-P02 |
Investigation of friction
coefficient on cutting tool material after combined treatment based of ion
implantation and plasma coating |
G.I. Kostyuk, L.V. Lobanova |
|
|
C1-P03 |
Model of charged particle and
plasma beam interaction with structural materials |
G.I. Kostyuk, E.A. Voliak |
|
|
C1-P04 |
Usage
of barrier coating for cutting tools for machining parts of titanium
alloys |
G.I.
Kostyuk |
|
|
C1-P05 |
Automated system of
technological support of the combined treatment based on ion implantation and
ion alloying, plasma coating and laser modification |
G.I.
Kostyuk |
|
|
C1-P06 |
Development of Novel Plasma
Devices Based on the Plasma Lens Configuration |
A.A. Goncharov, A.N. Evsyukov,
I.V. Litovko |
|
|
C1-P07 |
Space
Charge Formation In Non-cristalline Polymers And GaSe By DBD In SF6
Medium |
H.Z. Alisoy, C. Yeroglu, M.
Koseoglu |
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|
C1-P08 |
Effect of Laser Treatment on the
Surface Flashover Characteristics of Alumina Ceramic in Vacuum |
Kai-Kun
Yu, Guan-Jun Zhang, Nan Zheng, Guo-Qing Liu, Wen-Bin Zhao |
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C1-P09 |
Low and Atmospheric Pressure
Plasma Treatment of Natural Textile Fibers |
I. Luciu, B.
Mitu, V. Satulu, A. Matei, G. Dinescu |
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C1-P10 |
Effects
of substrate ion bombardment on characteristics of vacuum-arc plasma
deposited hard coatings |
V. Braic, D.Pavelescu, M.
Balaceanu, C.N. Zoita, M.Braic, A.Kiss, A.Vladescu |
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C2. Electron, ion,
neutron, X-ray and other light sources |
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C2-O01 |
Pulsed Vacuum-Arc Plasma Source
Operating in the Reflective-Discharge Mode |
S.A. Popov, E.L. Pryadko,
A.V. Batrakov |
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C2-O02 |
Parameters of accelerated
multi-species pulsed ion beam propagating through a drift gap |
V. L. Paperny, A. A.
Chernykh, V. A. Shkyaev |
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C2-O03 |
Vacuum Arc Plasma Beam Produced
From an Erbium Cathode |
V.N. Zhitomirsky, A. Raveh,
R.L. Boxman |
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C2-P01 |
Model of Collective Acceleration
of Ions in Spark Stage of Vacuum Discharge |
D.L. Shmelev, S.A. Barengolts |
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|
C2-P02 |
Status of High Current Ion
Source Operation at the GSI Accelerator Facility |
R. Hollinger, P. Spadtke |
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C2-P03 |
Selective Acceleration Effect in
Combined Vacuum-Flashover Discharges |
I.L. Muzukin, S.V. Barakhvostov |
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C2-P04 |
The
Obtaining of Hard Structures of Surfaces in Vacuum by Heat Processing with
Electron Beam |
D. Neagu |
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|
C2-P05 |
Excited State Distributions of
Hydrogen Atoms and Molecules in Microwave Discharge Hydrogen Plasma and
Effect of EEDF |
Y.
Shimizu, Y. Kittaka, H. Matsuura, A. Nezu, H. Akatsuka |
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|
C2-P06 |
Investigation of Energy and Mass
- Charging Composition of a Vacuum Spark Plasma at Various Pulse Parameters
and Electrode Arrangement |
I.L. Muzukin, I.V. Uimanov,
Yu.A. Zemskov |
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|
C2-P07 |
On the discharge parameters of a
glow mode DBD |
G. B. Rusu, A. V. Nastuta, A. S.
Chiper and G. Popa |
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C3. Accelerators and
fusion reactor related issues |
|
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C3-P01 |
Conditioning Characteristics of
DC500kV Large Electrostatic Accelerator in Negative-Ion Based NBI on JT-60U |
K. Kobayashi, M. Hanada, M.
Kamada, N. Akino, S. Sasaki, Y. Ikeda, M. Takahashi, Y. Yamano, S. Kobayashi,
L. R. Grisham |
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C3-P02 |
Energy Spectra of X-ray Emitted
from Surface of FRP Insulator |
Y.
Tanaka, Y. Ikeda, M. Hanada, K. Kobayashi, M. Kamada, M. Kisaki, N. Akino, Y.
Yamano, S. Kobayashi, L.R. Grisham |
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C4. Space related
technologies |
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C4-O01 |
The Pressure Dependence of the
Arc Plasma Propagation in Simulated LEO Environment |
Hideto
Mashidori, Kumi Nitta, Minoru Iwasa, Atsushi Wada, Kazuhiro Toyoda |
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C4-P01 |
Secondary Electron Emission on
Degradation Sample and Development of New Measurement System with Low
Electron Energy |
Hiroaki
Miyake, Kumi Nitta, Shinichiro Michizono, Yoshio Saito |
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C4-P02 |
Effect of Low Temperature on
Threshold Voltage for Solar Panel ESD Ground Tests |
Kumi Nitta, Hideto Mashidori,
Masato Takahashi |
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| D:
SURFACE SCIENCE AND VACUUM MICROELECTRONICS |
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|
D1. Surface Science and
Applications |
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|
D1-I01 |
Sputtering in Vacuum: A
Technology for Ultraclean Metallization and Space Propulsion |
A. Anders, J. Andersson |
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D1-O01 |
Filtered Vacuum Arc Plasma
Source for Composite Coatings Deposition |
I.I.
Aksenov, D.S. Aksyonov, V.V. Vasilyev, A.A. Luchaninov, E.N. Reshetnyak, V.E.
Strel’nitskij |
|
|
D1-O02 |
Detection of Ultra-Low-Level
Surface Contamination Using Extreme Ultraviolet Photoelectron Spectroscopy |
Dong-Hoon
Lee, Toshihisa Tomie, Byung-Wook Park, Jessie Darma, Youl-Moon Sung |
|
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D1-O03 |
Plasma Initiation of Vacuum Arcs
on a Metal Surface Partially Covered with a Dielectric Film |
V.A. Ivanov, A.S.
Sakharov, M.E. Konyzhev |
|
|
D1-P01 |
Producing Cu Interconnections on
a Si Substrate using a Hot Refractory Anode Vacuum Arc |
I.I. Beilis, D. Grach, R.L.
Boxman |
|
|
D1-P02 |
Research on the Short Circuit
Current Limiting based on the Vacuum Circuit Breaker with a Short Closing
Time |
Peng Sun, Shuli Wang |
|
|
D1-P03 |
Rectilinear
Plasma Filters and Suppression of Macroparticles Emission in Vacuum Arcs; a
Review |
D.S. Aksyonov, I.I.
Aksenov, V.E. Strel’nitskij |
|
|
D1-P04 |
Influence of Substrate Geometry
on Ion-Plasma Coating Deposition Process |
V.M.
Khoroshikh, S.А. Leonov, V.А. Belous |
|
|
D1-P05 |
Influences of Preparation
Technology on the Flashover Characteristics of Machinable Ceramics in Vacuum |
Guo-Qing Liu,
Kai-Kun Yu, Jie Tian, Guan-Jun Zhang. |
|
|
D1-P06 |
Titanium-doped Indium Oxide
Films Prepared by RF Magnetron Sputtering |
D. W. Han, J. Darma, E.
Kuantama, D. J. Kwak, Y. M. Sung |
|
|
D1-P07 |
Novel Characterization Technique
by using an SEM |
A.G.E. Sutjipto,
Jufriadi, R. Muhida, M. Takata |
|
|
D1-P08 |
Experimental investigations of
the effect of vacuum-arc plasma characteristics on the properties of
deposited layers |
Delplancke-Ogletree M. P.,
Chekh Yu. |
|
|
D2. Vacuum
microelectronics and their applications |
|
|
|
D2-P01 |
Synthesis
of CNT-SnO2 and CNT-In2O3 films for micro sensor application using vacuum
microelectronics technology |
Jessie
Darma, Chi-Hwan Han, Sang-Do Han, Youl-Moon Sung |
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