X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
transverse magnetic field (45) 45
magnetic fields (39) 39
physics, fluids & plasmas (30) 30
vacuum arc (29) 29
vacuum arcs (28) 28
cathodes (22) 22
interrupters (13) 13
motion (13) 13
anodes (12) 12
circuit breakers (11) 11
behavior (9) 9
usage (9) 9
vacuum interrupter (9) 9
magnetisches feld (8) 8
modes (8) 8
research (8) 8
electrodes (7) 7
ignition (7) 7
lichtbogen (7) 7
magnetism (7) 7
querfeld (7) 7
cameras (6) 6
computer simulation (6) 6
contact (6) 6
contacts (6) 6
mathematical models (6) 6
switches (6) 6
axial magnetic field (5) 5
charge coupled devices (5) 5
magnetic separation (5) 5
spannung (5) 5
spirals (5) 5
vakuum (5) 5
vakuumschalter (5) 5
analysis (4) 4
arc appearance (4) 4
cathode spots (4) 4
circuits (4) 4
column (4) 4
current measurement (4) 4
driven (4) 4
dynamics (4) 4
electric arc (4) 4
electric potential (4) 4
force (4) 4
magnetfeld (4) 4
physics, applied (4) 4
plasma temperature (4) 4
rmf (4) 4
simulation (4) 4
surface treatment (4) 4
transverse magnetic field contacts (4) 4
vacuum circuit breaker (4) 4
vacuum interrupters (4) 4
voltage (4) 4
arc (3) 3
capacitors (3) 3
dc interruption (3) 3
engineering, electrical & electronic (3) 3
geschwindigkeit (3) 3
high current (3) 3
high-speed camera (3) 3
intermediate frequency vacuum arc (3) 3
intermediate-frequency (3) 3
kathode (3) 3
longitudinal magnetic field (3) 3
lorentz-kraft (3) 3
magnetic noise (3) 3
magnetic shielding (3) 3
magnetohydrodynamik (3) 3
materials science, multidisciplinary (3) 3
numerische simulation (3) 3
optimization (3) 3
physics (3) 3
plasmas (3) 3
relay (3) 3
retrograde motion (3) 3
spiral contacts (3) 3
spots (3) 3
transverse magnetic-field (3) 3
vacuum chambers (3) 3
vacuum technology (3) 3
welding (3) 3
60 applied life sciences (2) 2
amf (2) 2
animal tissues (2) 2
anode (2) 2
arc characteristic (2) 2
arc characteristics (2) 2
arc duration (2) 2
arc heating (2) 2
arc voltage (2) 2
arc welding (2) 2
arcing stage (2) 2
attachment (2) 2
bridge circuits (2) 2
cathode spot (2) 2
coherent population trapping (2) 2
coils (2) 2
contact melting (2) 2
more...
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


IEEE transactions on plasma science, ISSN 1939-9375, 2018, Volume 46, Issue 3, pp. 622 - 630
Transverse magnetic field (TMF) contacts can prevent local overheat by creating a TMF and driving the vacuum arc to rotate around the contact periphery, thus improving the breaking performance of vacuum circuit breaker... 
Plasma jets | high-speed camera | Magnetic separation | Bridge circuits | Ignition | transverse magnetic field (TMF) | vacuum arc | Anodes | Arcing stage | Vacuum arcs | Cathodes | vacuum circuit breaker (VCB) | MODES | VACUUM ARCS | MOTION | SPIRAL CONTACTS | PHYSICS, FLUIDS & PLASMAS | Usage | Research | Magnetic fields
Journal Article
IEEE transactions on plasma science, ISSN 1939-9375, 2018, Volume 46, Issue 8, pp. 3040 - 3046
The transverse magnetic field (TMF) contact has the advantages of small loop resistance, simple structure, and strong breaking ability... 
Interrupters | Improved contact | vacuum interrupter | Metals | Ignition | Magnetic noise | transverse magnetic field (TMF) | vacuum arc | Vacuum arcs | Cathodes | Magnetic shielding | MAGNETIC-FIELD CONTACTS | ARC | MODES | PHYSICS, FLUIDS & PLASMAS | BEHAVIOR | Magnetic flux | Droplets | Computer simulation | Magnetic fields | Optimization
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 08/2018, Volume 46, Issue 8, pp. 3057 - 3064
.... The transverse magnetic field (TMF), generated by spiral-type or cup-type contact, moves the constricted arc over the contact surface, which avoid excessive heating on the contact and reduce the erosion of a fixed area... 
transverse magnetic field (TMF) contacts | Magnetic cores | Circuit breakers | vacuum arcs | Force | Electromagnetic forces | Magnetic noise | Iron | Magnetic field | Magnetic shielding | CURRENT INTERRUPTION | MODES | PHYSICS, FLUIDS & PLASMAS | TRANSVERSE MAGNETIC-FIELD | Charge coupled devices | Erosion mechanisms | Vacuum chambers | Interrupters | Electrical equipment | Ablation | Weight | Cores | Arc heating | Magnetism | Magnetic fields
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 01/2015, Volume 43, Issue 1, pp. 472 - 479
In this paper, the relationship between the external transverse magnetic field (TMF) and the ignition probability of new cathode spot in different directions... 
Cathode spots | Simulation | Ignition | Probability density function | Probability distribution | transverse magnetic field (TMF) | vacuum arc | Integrated circuit modeling | Vacuum arcs | Cathodes | RETROGRADE MOTION | PHYSICS, FLUIDS & PLASMAS | DYNAMICS | PHYSICS
Journal Article
by Feng, D and Xiu, S and Liu, G and Wang, Y and Zhang, Y
IEEE Transactions on Plasma Science, ISSN 0093-3813, 12/2015, Volume 43, Issue 12, pp. 4161 - 4168
The behavior of vacuum arc influences the heat distribution on the contacts and the contact melt and erosion, and thus, it greatly affects the breaking... 
Charge coupled devices | Interrupters | Circuit breakers | Anodes | Vacuum arcs | Cathodes | TRANSITION | CONTACTS | vacuum interrupter | PHYSICS, FLUIDS & PLASMAS | BEHAVIOR | high-speed video | transverse magnetic field (TMF) | Arc instability mode | Cameras | Usage | Research | Magnetic fields | Analysis
Journal Article
IEEE transactions on plasma science, ISSN 1939-9375, 2019, Volume 47, Issue 1, pp. 661 - 670
.... Besides the single transverse magnetic field (TMF) and single axial magnetic field (AMF), new type of TMF-AMF contact and TMF-TMF contact structures have been put forward to control the vacuum arc in recent years... 
Resistance | Axial magnetic field (AMF) | Contacts | Magnetic cores | experimental investigation | vacuum interrupter | Switches | transverse magnetic field (TMF) | Anodes | Vacuum arcs | Cathodes | vacuum arcs | HIGH-CURRENT INTERRUPTION | DESIGN | PHYSICS, FLUIDS & PLASMAS | Contact melting | Low currents | Melting | Interrupters | High current | Plates (structural members) | Magnetism | Lorentz force | Magnetic fields | Electric arcs
Journal Article
Medical Physics, ISSN 0094-2405, 06/2016, Volume 43, Issue 6, pp. 3660 - 3660
...) at air-tissue and lung-tissue interfaces under a 1.5T transverse-magnetic-field (TMF). Methods: IMRT and VMAT plans for representative pancreas, lung, breast and head... 
Transverse effects | Skin | Dosimetry | Lungs | Intensity modulated radiation therapy | Magnetic fields | MAGNETIC FIELDS | MAMMARY GLANDS | RADIATION PROTECTION AND DOSIMETRY | LUNGS | INTERFACES | ANIMAL TISSUES | OPTIMIZATION | RADIATION DOSES | RADIOTHERAPY | 60 APPLIED LIFE SCIENCES
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 05/2017, Volume 45, Issue 5, pp. 859 - 867
In the interrupting process of a three-phase vacuum interrupter, there exists a transverse magnetic field (TMF... 
Magnetohydrodynamics | Interrupters | simulation | Adjacent phases | Software | transverse magnetic field (TMF) | Plasmas | vacuum arc | Anodes | axial magnetic field (AMF) | Vacuum arcs | PHYSICS, FLUIDS & PLASMAS | MAGNETIC-FIELD | Electric circuit-breakers | Plasma physics | Usage | Research
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 11/2016, Volume 44, Issue 11, pp. 2886 - 2892
Journal Article
IEEE transactions on plasma science, ISSN 1939-9375, 2018, Volume 46, Issue 5, pp. 1497 - 1502
Journal Article
Zhongguo Dianji Gongcheng Xuebao/Proceedings of the Chinese Society of Electrical Engineering, ISSN 0258-8013, 01/2011, Volume 31, Issue 1, pp. 131 - 137
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 08/2013, Volume 41, Issue 8, pp. 2068 - 2073
.... External coils are used to generate transverse magnetic field (TMF) driving cathode spots to rotate on tube surface... 
transverse magnetic field (TMF) | Electron tubes | vacuum arc | Magnetic fields | Vacuum arcs | Surface treatment | Cathodes | Cathode spots (CSs) | oxide layer | METAL-SURFACE | PRESSURE | PHYSICS, FLUIDS & PLASMAS | CATHODE SPOTS
Journal Article
by Collaboration, The ATLAS and Abat, E and Abdelalim, A A and Abdinov, O and Akimov, A V and Alessandria, F and Alves, R and Alviggi, M G and Amelung, C and Amram, N and Andrieux, M-L and Anduaga, X S and Antonelli, M and Apsimon, R and Arnault, C and Artamonov, A and Assamagan, K and Athar, B and Austin, N and Avramidou, R and Azuelos, G and Bailey, D C and Pedrosa, F Baltasar Dos Santos and Banfi, D and Bardin, D Y and Bargassa, P and Baron, S and Barreiro, F and Bartoldus, R and Bazalova, M and Bedajanek, I and Beddall, A J and Bednyakov, V A and Bee, C and Belanger, G A N and Belanger-Champagne, C and Belhorma, B and Bell, W H and Bellachia, F and Bellagamba, L and Bellomo, G and Beltramello, O and Benchekroun, D and Bendel, M and Benedict, B H and Bernabéu, J and Berry, T and Bertolucci, S and Beteille, A and Bialas, W and Bianco, M and Biglietti, M and Bilokon, H and Bizzell, J P and Blair, R E and Blanch, O and Blanchot, G and Blumenschein, U and Boaretto, C and Bohm, C and Bohm, J and Boisvert, V and Bonino, R and Boosten, M and Booth, C N and Booth, P and Borisov, A and Bos, K and Boutemeur, M and Bouzakis, K and Boyer, B H and Brandt, A and Brandt, O and Bravo, S and Brelier, B and Brock, R and Brouwer, G and Bruschi, M and Bugge, L and Burdin, S and Buszello, K P and Butterworth, J M and Cakir, O and Callahan, J and Cameron, D and Cammin, J and Caprio, M and Caramarcu, C and Carcagno, Y and Cardeira, C and Carli, T and Carpentieri, C and Carr, F S and Carter, A A and Casado, M P and Gimenez, V Castillo and Castrovillari, F and Cattai, A and Caughron, S and Cauz, D and ...
Journal of instrumentation, ISSN 1748-0221, 2008, Volume 3, Issue 8, pp. S08003 - S08003
The ATLAS detector as installed in its experimental cavern at point 1 at CERN is described in this paper. A brief overview of the expected performance of the... 
CERN | Electromagnetic and hadronic interactions | Radiation-hard electronics | Muon spectrometer | Accordion geometry | Hall probes | Heavy-ion collisions | Trigger chambers | Bunch-crossings | Proton-proton collisions | Tracking algorithms | Vertex measurement | Forward detectors | Detector control system | Particle identification | Longitudinal segmentation | Carbon-fibre reinforced plastics | Optical fibres | Inner detector | Pixel detectors | Superconducting magnets | Roman Pots | Solenoidal field | Missing transverse energy | Lateral segmentation | Precision-tracking chambers | Calorimetry | Jets | Charged-particle tracking | Fluorinert cooling | Thin-gap chambers | Vertexing algorithms | B-tagging | Minimum-bias events | LHC | Silicon micro-strip detectors | Pile-up | Taus | High-level trigger | ATLAS | Impact parameter measurements | Bandwidth | Event filter | Drift tubes | Liquid argon | Resistive-plate chambers | Muons | Leptons | Time-over-threshold | Trigger and data acquisition | Processor farm | Magnetic field measurements | Photons | Toroidal field | Optical alignment systems | Forward calorimetry | Cerenkov light | Scintillator tiles | Transition radiation | Zero-degree calorimetry | Sampling calorimeters | Accelerator | Electrons | PERFORMANCE | END-CAP CALORIMETER | COLD MASS | BARREL TOROID MAGNET | INSTRUMENTS & INSTRUMENTATION | b-tagging | LIQUID ARGON CALORIMETER | DRIFT-TUBE CHAMBERS | SEMICONDUCTOR TRACKER | LUMINOSITY MEASUREMENT | CONSTRUCTION | Physics | High Energy Physics - Experiment
Journal Article
IEEE Transactions on Plasma Science, ISSN 0093-3813, 08/2015, Volume 43, Issue 8, pp. 2267 - 2274
In this paper, the influence of an external transverse magnetic field, in parallel with the cathode surface, on the ignition probabilities of a cathode spot (CS... 
random motion | Simulation | Ignition | Cathode spot (CS) | Probability distribution | transverse magnetic field (TMF) | Trajectory | vacuum arc | Vacuum arcs | Cathodes | retrograde motion | MAGNETIC-FIELDS | PHYSICS, FLUIDS & PLASMAS | RANDOM-WALK | DYNAMICS | Influence | Orbits | Research | Magnetic fields
Journal Article
IEICE Transactions on Electronics, ISSN 0916-8524, 2012, Volume E95-C, Issue 9, pp. 1481 - 1486
Application of transverse magnetic field (TMF) is one of the most important ways to improve electric life and breaking capacity of DC relays... 
Relay | Transverse magnetic field (TMF) | Making and breaking arc duration | Contact | transverse magnetic field (TMF) | making and breaking arc duration | relay | contact | ENGINEERING, ELECTRICAL & ELECTRONIC
Journal Article
by Lang, W.C and Gao, B and Du, H and Xiao, J.Q and Li, M.X and Wang, X.H
Journal of Nanoscience and Nanotechnology, ISSN 1533-4880, 09/2015, Volume 15, Issue 9, pp. 7357 - 7362
Journal Article
2015 3rd International Conference on Electric Power Equipment – Switching Technology (ICEPE-ST), 10/2015, pp. 541 - 545
Splitting of vacuum arc at intermediate frequency (400-800Hz) were investigated under transverse magnetic field (TMF... 
arc appearance | Vacuum systems | arc splitting | Interrupters | Capacitors | transverse magnetic field (TMF) | intermediate frequency vacuum arc | vacuum arc | Magnetic fields | Vacuum arcs | Cathodes | Splitting | Conferences | Electric contacts | Circuits | High speed | Intermediate frequencies | Contact
Conference Proceeding
26th International Conference on Electrical Contacts (ICEC 2012), 2012, Volume 2012, Issue 605, pp. 30 - 34
Using transverse magnetic field (TMF) is one of the most important ways to improve the electric life and the breaking capacity of DC relays... 
Gaseous insulation, breakdown and discharges | Permanent magnets | Relays and switches | Electric and magnetic fields | Electrical contacts | Transverse magnetic field (tmf) | Arc duration | Relay | Contact
Conference Proceeding
No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.