Improvement of a powerful ion Br - Diode parameters by changing the distribution of the magnetic flux in the anode – cathode gap; Vacuum; Vol. 176

Improvement of a powerful ion Br - Diode parameters by changing the distribution of the magnetic flux in the anode – cathode gap; Vacuum; Vol. 176

Bibliographic Details
Parent link:	Vacuum Vol. 176.— 2020.— [109336, 5 p.]
Corporate Authors:	Национальный исследовательский Томский политехнический университет Инженерная школа новых производственных технологий Научно-производственная лаборатория "Импульсно-пучковых, электроразрядных и плазменных технологий", Национальный исследовательский Томский политехнический университет Исследовательская школа физики высокоэнергетических процессов
Other Authors:	Stepanov A. V. Andrey Vladimirovich, Zhong Haowen, Zhang Shijian, Xu Mofei, Le Xiaoyun, Remnev G. E. Gennady Efimovich
Summary:	Title screen The influence of magnetic flux distribution in the anode-cathode gap on the parameters of ion Br – diode was investigated. The distribution of the magnetic field formed by an external power source along the anode and cathodes surfaces of the ion diode was obtained. In addition, the diode current-voltage characteristics were measured by changing the magnetic field induction from 0.4 to 1.5 T. The increase in the magnetic field induction on the anode surface was shown to change the diode operating modes. The difference of the magnetic field value near the surfaces of anode and cathodes was compensated by an increase in the ion current. Режим доступа: по договору с организацией-держателем ресурса
Language:	English
Published:	2020
Subjects:	электронный ресурс труды учёных ТПУ ion diode magnetic field configuration current-voltage characteristic ion beam ионные диоды магнитное поле вольтамперные характеристики ионные пучки
Online Access:	https://doi.org/10.1016/j.vacuum.2020.109336
Format:	Electronic Book Chapter
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=662152

Similar Items

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
by: Shamanin V. I. Vitaly Igorevich
Published: (2018)

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
Published: (2023)

Suppression of Heavy Ion Generation in a Vacuum Diode with a Passive Anode; Plasma Physics Reports; Vol. 48, iss. 11
Published: (2022)

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)
Published: (2019)

Focusing of intense pulsed ion beam by magnetically insulated diode for material research; Surface and Coatings Technology; Vol. 384
Published: (2020)

Study of the propagation of an intense ion beam to the target; Vacuum; Vol. 198
Published: (2022)

Ion acceleration mechanism in mega-ampere gas-puff z-pinches; New Journal of Physics; Vol. 20, No. 5
Published: (2018)

The role of surface defects in the charge transport in organic solar cells based on oxidized indium thin films; Surfaces and Interfaces; Vol. 31
Published: (2022)

Comparison of collective acceleration of ions in a luce diode in residual atmospheres of air, argon and krypton; Vacuum; Vol. 229
by: Ryzhkov V. A. Vladislav Andreevich
Published: (2024)

On Reproducibility of Collective Acceleration of Protons in a Plasma-Anode Diode System; Russian Physics Journal; Vol. 61, iss. 12
by: Lopatin V. S. Valery Stepanovich
Published: (2019)

Моделирование и идентификация узлов нагрузки с нелинейными вольтамперными характеристиками по данным измерений; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 328, № 6
by: Харлов Н. Н. Николай Николаевич
Published: (2017)

Surface Modification of Corundum Ceramics by Argon Ion Beam; Inorganic Materials: Applied Research; Vol. 10, iss. 2
Published: (2019)

Supersonic Flow of Vacuum Arc Plasma in a Magnetic Field; IEEE Transactions on Plasma Science; Vol. 49, iss. 9
Published: (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
Published: (2019)

Formation, Focusing and Transport of Highintensity, Low-Energy Metal Ion Beams; Russian Physics Journal; Vol. 63, iss. 10
Published: (2021)

Investigation of the D(3He, p)4He reaction on ZrD targets in the energy region of 16-34 keV; Nuclear Physics A; Vol. 990
Published: (2019)

Ultra high fluence implantation of aluminum ions into CP–Ti; Journal of Alloys and Compounds; Vol. 793
Published: (2019)

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
Published: (2017)

Special Aspects of High-Intensity Low-Energy Ion Implantation; Russian Physics Journal; Vol. 63, iss. 10
Published: (2021)

Shielding of energy deposition by ablation of plastics under intense pulsed ion beam irradiation; Vacuum; Vol. 174
Published: (2020)

Модель напряжения литий-ионного аккумулятора для задачи прогнозирования предаварийного состояния; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 336, № 10
by: Букреев В. Г. Виктор Григорьевич
Published: (2025)

Study of the Regularities of Low- and Super-Low-Energy High-intensity Metal Ion Beams Formation; Energy Fluxes and Radiation Effects (EFRE-2020 online)
Published: (2020)

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)
by: D. O. Dimitry Olegovich
Published: (2023)

Plasma diagnostic by probes study aid
by: Tichý M.
Published: (Томск, ТПУ, 2016)

Surface modification of Al by high-intensity low-energy Ti-ion implantation: Microstructure, mechanical and tribological properties; Surface and Coatings Technology; Vol. 372
Published: (2019)

Features of the Formation of Ultralow Energy High-Intensity Metal and Gaseous Ion Beams; IEEE Transactions on Plasma Science; Vol. 49, iss. 9
Published: (2021)

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)
Published: (2022)

The effective anode-cathode gap in an ion diode operating in a bipolar-pulse regime; Technical Physics Letters; Vol. 40, iss. 7
by: Pushkarev A. I. Aleksandr Ivanovich
Published: (2014)

Low energy, high intensity metal ion implantation method for deep dopant containing layer formation; Surface and Coatings Technology; Vol. 355
Published: (2018)

Surface Modification of ZrO[2] -3Y[2] O[3] Ceramics with Continuous Ar{+} Ion Beams; Surface Modification of Materials by Ion Beams (SMMIB-2019)
Published: (2019)

Plasma diagnostic by probes study aid
by: Tichý M.
Published: (Томск, ТПУ, 2016)

Study of craters formed on surface of AISI 321 stainless steel after high power ion-beam exposure; Vacuum; Vol. 198
Published: (2022)

Structure and electrochemical characterization of SnOx/Sn@MWCNT composites formed by pulsed ion beam irradiation; Journal of Alloys and Compounds; Vol. 793
Published: (2019)

Influence of the Flux Peaking Effect on the DD Reaction Yield Upon D+ Ion Channelling in Deuterated Palladium; Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques; Vol. 14, iss. 2
Published: (2020)

Computation of the impedance of a vacuum electron diode with emission current delay; Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment; Vol. 921
by: Egorov I. S. Ivan Sergeevich
Published: (2019)

Влияние биогеохимической обстановки водосборного бассейна озера Телецкое (Северо-Восточный Алтай) на содержание главных ионов и Fe в водах его притоков; Известия Томского политехнического университета [Известия ТПУ]. Инжиниринг георесурсов; Т. 333, № 2
Published: (2022)

Изменение рельефа поверхности магния под действием мощных потоков ионов углерода; Известия вузов. Физика; Т. 57, № 10/3
Published: (2014)

Study of phase transformation and surface microstructure of alumina ceramic under irradiation of intense pulsed ion beam; Vacuum; Vol. 187
Published: (2021)

Repetitively-pulsed nitrogen implantation in titanium by a high-power density ion beam; Energy Fluxes and Radiation Effects (EFRE); International Conference on Modification of Materials with Particle Beams and Plasma Flows (16th CMM)
Published: (2022)

Regularities of Plasma-Immersion Formation of Long-Pulse High-Intensity Titanium Ion Beams; Russian Physics Journal; Vol. 61, iss. 7
Published: (2018)