Gas emission of anode polymer coating and its influence on applied - Br magnetically insulated ion diode characteristics; Laser and Particle Beams; Vol. 35, iss. 1
| Parent link: | Laser and Particle Beams Vol. 35, iss. 1.— 2017.— [P. 48-52] |
|---|---|
| Autor Corporativo: | |
| Outros Autores: | , , , , |
| Resumo: | Title screen The paper presents the result of investigation gas emission from anode polymer coating of applied - Br magnetically insulated ion diode. The gas pressure value for any polymer type was determined. The investigations of the pressure variation were carried out during the pulse repetition rate of ion beam from 1 to 4 pps. The residual gas pressure value variation inside the vacuum chamber influenced on the ion beam parameters. The mass content of ion beam injected into the transition area did not depend on the residual gas pressure value. The breakdown of residual gas pressure by eddy electric field of magnetic coils was investigated. |
| Idioma: | inglês |
| Publicado em: |
2017
|
| Assuntos: | |
| Acesso em linha: | https://doi.org/10.1017/S0263034616000793 |
| Formato: | Recurso Electrónico Capítulo de Livro |
| KOHA link: | https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=653933 |
Registos relacionados
Improvement of a powerful ion Br - Diode parameters by changing the distribution of the magnetic flux in the anode – cathode gap; Vacuum; Vol. 176
Publicado em: (2020)
Publicado em: (2020)
Influence of magnetic field of a radial focusing external magnetically insulated diode on emission behavior of intense pulsed ion beam; Nuclear Instruments and Methods in Physics Research B; Vol. 537
Publicado em: (2023)
Publicado em: (2023)
Focusing of intense pulsed ion beam by magnetically insulated diode for material research; Surface and Coatings Technology; Vol. 384
Publicado em: (2020)
Publicado em: (2020)
High-intensity pulsed ion beam focusing by its own space charge; Laser and Particle Beams; Vol. 36, iss. 4
Publicado em: (2018)
Publicado em: (2018)
Suppression of Heavy Ion Generation in a Vacuum Diode with a Passive Anode; Plasma Physics Reports; Vol. 48, iss. 11
Publicado em: (2022)
Publicado em: (2022)
Collective Acceleration of Helium Ions from Its Residual Atmosphere in a Luce Diode; Quantum Beam Science; Vol. 7, iss. 4
Por: Ryzhkov V. A. Vladislav Andreevich
Publicado em: (2023)
Por: Ryzhkov V. A. Vladislav Andreevich
Publicado em: (2023)
On evaporation smoothing mechanism of metal surface under the irradiation by submicrosecond ion beams; 9th International Conference on Modification of Materials with Particle Beams and Plasma Flows, Tomsk, 21-21September 2008
Por: Bleykher (Bleicher) G. A. Galina Alekseevna
Publicado em: ()
Por: Bleykher (Bleicher) G. A. Galina Alekseevna
Publicado em: ()
Investigation of High-Intensity Ion Beam Generation in the Diode with External Magnetic Insulation and Explosive Plasma Emission Source; Russian Physics Journal; Vol. 60, iss. 12
Por: Shamanin V. I. Vitaly Igorevich
Publicado em: (2018)
Por: Shamanin V. I. Vitaly Igorevich
Publicado em: (2018)
On Reproducibility of Collective Acceleration of Protons in a Plasma-Anode Diode System; Russian Physics Journal; Vol. 61, iss. 12
Por: Lopatin V. S. Valery Stepanovich
Publicado em: (2019)
Por: Lopatin V. S. Valery Stepanovich
Publicado em: (2019)
Features of titanium ion beams formation taking into account ion-electron emission realizing the synergy of high-intensity ion implantation and pulsed energy impact on the surface; Materials. Technologies. Design; Т. 5, № 4 (14)
Por: D. O. Dimitry Olegovich
Publicado em: (2023)
Por: D. O. Dimitry Olegovich
Publicado em: (2023)
High-intensity ion beams with submillisecond duration for synergistic of ion implantation and energy impact on the surface; Energy Fluxes and Radiation Effects (EFRE); International Conference on Modification of Materials with Particle Beams and Plasma Flows (16th CMM)
Publicado em: (2022)
Publicado em: (2022)
DIN 1.7035 Steel Modification with High Intensity Nitrogen Ion Implantation; Russian Physics Journal; Vol. 61, iss. 2
Publicado em: (2018)
Publicado em: (2018)
Formation of Pulsed-Periodic Beam of Metal Ions of Submillisecond Duration with High Power Density; Instruments and Experimental Techniques; Vol. 68, iss. 1
Por: Ryabchikov A. I. Aleksandr Ilyich
Publicado em: (2025)
Por: Ryabchikov A. I. Aleksandr Ilyich
Publicado em: (2025)
Effect on microstructure of Fe80B13Si7 metallic glass irradiated by high intensity pulsed ion beam and He ions; Surface and Coatings Technology; Vol. 449
Publicado em: (2022)
Publicado em: (2022)
Features of the Formation of Ultralow Energy High-Intensity Metal and Gaseous Ion Beams; IEEE Transactions on Plasma Science; Vol. 49, iss. 9
Publicado em: (2021)
Publicado em: (2021)
High-power ion beam sources for industrial application; Surface and Coatings Technology; Vol. 96, iss. 1
Publicado em: (1997)
Publicado em: (1997)
Features of the formation and diagnostics of powerful metal ion beams with submillisecond duration; Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment; Vol. 1057
Por: Ryabchikov A. I. Aleksandr Ilyich
Publicado em: (2023)
Por: Ryabchikov A. I. Aleksandr Ilyich
Publicado em: (2023)
Plasma-immersion formation of high-intensity gaseous ion beams; Vacuum; Vol. 165
Publicado em: (2019)
Publicado em: (2019)
Half-wavelength-crystal channeling of relativistic ions and its possible application for a beam deflection; Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment; Vol. 1061
Por: Bogdanov O. V. Oleg Viktorovich
Publicado em: (2024)
Por: Bogdanov O. V. Oleg Viktorovich
Publicado em: (2024)
Formation, Focusing and Transport of Highintensity, Low-Energy Metal Ion Beams; Russian Physics Journal; Vol. 63, iss. 10
Publicado em: (2021)
Publicado em: (2021)
Data on the structure, chemical state of carbon and discharge characteristics of multi-walled carbon nanotubes and composites based on them modified by pulsed ion beam; Data in Brief; Vol. 25
Publicado em: (2019)
Publicado em: (2019)
Features of High-Intensity Implantation of Chromium into Zr1%Nb Alloy Using a High-Power Density Repetitively-Pulsed Ion Beam; Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques; Vol. 19, iss. 4
Publicado em: (2025)
Publicado em: (2025)
Ultra high fluence implantation of aluminum ions into CP–Ti; Journal of Alloys and Compounds; Vol. 793
Publicado em: (2019)
Publicado em: (2019)
Modification of AISI 420 Steel under Repetitively Pulsed Energetic Impact on the Surface of a Powerful Ion Beam of Submillisecond Duration; Russian Physics Journal; Vol. 67, iss. 5
Por: Merzlyakov I. Ivan
Publicado em: (2024)
Por: Merzlyakov I. Ivan
Publicado em: (2024)
Surface Modification of ZrO2-3Y2O3 with Highintensity Pulsed N2+ Ion Beams; Russian Physics Journal; Vol. 63, iss. 1
Publicado em: (2020)
Publicado em: (2020)
Structure-phase states of the metal surface and undersurface layers after the treatment by powerful ion beams; Surface and Coatings Technology; Vol. 105, iss. 1-2
Publicado em: (1998)
Publicado em: (1998)
High-Current Pulsed Induction Plasma Source for Generation of High Intensity Ion Beams of Various Gases; Surface Modification of Materials by Ion Beams (SMMIB-2019)
Publicado em: (2019)
Publicado em: (2019)
Modification of the properties of aircraft engine compressor blades by uninterrupted and pulsed-ion beams; Surface and Coatings Technology; Vol. 96, iss. 1
Publicado em: (1997)
Publicado em: (1997)
Features of the morphology, defect substructure, and phase composition of metal and alloy surfacs upon high-power ion beam irradiation; Surface and Coatings Technology; Vol. 185, iss. 1
Publicado em: (2004)
Publicado em: (2004)
Investigation of the Features of High-Intensity Implantation of Nitrogen Ions into Titanium; Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques; Vol. 17, s. 1
Publicado em: (2023)
Publicado em: (2023)
Transport of proton bunches in Luce diode drift tubes; Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment; Vol. 1080
Publicado em: (2025)
Publicado em: (2025)
High-power ion beam treatment application for properties modification of refractory alloys; Surface and Coatings Technology; Vol. 99, iss. 1-2
Publicado em: (1998)
Publicado em: (1998)
Surface Modification of ZrO[2] -3Y[2] O[3] Ceramics with Continuous Ar{+} Ion Beams; Surface Modification of Materials by Ion Beams (SMMIB-2019)
Publicado em: (2019)
Publicado em: (2019)
Influence of ablation on energy deposition in polymer material under irradiation of intense pulsed ion beam; Acta Physica Sinica; Vol. 69, iss. 11
Publicado em: (2020)
Publicado em: (2020)
Special Aspects of High-Intensity Low-Energy Ion Implantation; Russian Physics Journal; Vol. 63, iss. 10
Publicado em: (2021)
Publicado em: (2021)
Mixing in TI/STEEL system under High-intensity pulsed ion beam impact; High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes; Vol. 26, iss. 1
Publicado em: (2022)
Publicado em: (2022)
A method of real-time monitoring beam output stability of intense pulsed ion beam; Acta Physica Sinica; Vol. 72, iss. 17
Publicado em: (2023)
Publicado em: (2023)
Craters on the Surface Metal After HPIB of Carbon Ions; Surface Modification of Materials by Ion Beams (SMMIB-2019)
Por: Potemkin G. V. Gely Valerjyanovich
Publicado em: (2019)
Por: Potemkin G. V. Gely Valerjyanovich
Publicado em: (2019)
Ablation induced by intense pulsed ion beam and its effects on energy deposition on solid target; Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms; Vol. 461
Publicado em: (2019)
Publicado em: (2019)
Ion beam deflection in focusing magnetically insulated ion diodes with passive anode; Energy Fluxes and Radiation Effects (EFRE-2016)
Publicado em: (2016)
Publicado em: (2016)