Your search keyword '"Koshkarev, Alexey"' showing total 4 results

1. The Study of the Electrical Strength of Selected Insulators With a Different Shape of the Surface

Author

Kolesnikov, Yaroslav, Gmyrya, Anatolii, Kasatov, Dmitriy, Koshkarev, Alexey, Kuznetsov, Aleksandr, Makarov, Alexandr, Shchudlo, Ivan, Sokolova, Evgeniya, Sorokin, Igor, and Taskaev, Sergey

Subjects

Physics::Accelerator Physics, Accelerator Physics, Medical and industrial applications

Abstract

In the BINP SB RAS was proposed and created a source of epithermal neutrons for BNCT. The proton beam is obtained on a tandem accelerator with vacuum insulation. Sectionalized demountable feed through insulator is an integral part of the accelerator. Voltage from the high voltage source is distributed to the electrodes via resistive divider. Because of the small amount of current (hundreds of microamperes) flowing through the divider, dark currents that occur in the accelerating gaps, can significantly affect the uniform distribution of the potential along the accelerating channel, and, consequently, on the beam transportation. Therefore there is a need to change the design of the feed through insulator which will allow to set potentials at the electrodes directly from the high voltage rectifier sections. To study the feasibility of such changes has been designed and built an experimental stand, in which a single insulator with double height subjected to the same conditions as in accelerator. On the experimental stand was studied electrical strength of ceramic and polycarbonate insulators with a different shape of the surface. The paper presents the results of experimental studies of insulators. Their application will get rid of the voltage divider inside the feed through insulator and realize the scheme which allows to set potential on the electrode gaps directly from the rectifier section. This will increase the operating voltage of the accelerator and its reliability., Proceedings of the 25th Russian Particle Accelerator Conf., RuPAC2016, St. Petersburg, Russia

Published

2017

2. Obtainment of 5 mA 2 MeV Proton Beam in the Vacuum Insulation Tandem Accelerator

Author

Shchudlo, Ivan, Kasatov, Dmitriy, Koshkarev, Alexey, Makarov, Alexandr, Ostreinov, Yury, Sorokin, Igor, and Taskaev, Sergey

Subjects

Physics::Accelerator Physics, Nuclear Experiment, Accelerator Physics, Medical and industrial applications

Abstract

In BINP the neutron source for BNCT based on proton accelerator was designed and built. It is necessary for the therapy to ensure a stable proton beam current of not less than 3 mA with energy 2 MeV. During the injection of negative hydrogen ion beam into the accelerator the unwanted charged particles are produced, affecting the stability of beam parameters. The article describes meth-ods of suppression of undesirable charged particles and the results of experiments., Proceedings of the 25th Russian Particle Accelerator Conf., RuPAC2016, St. Petersburg, Russia

Published

2017

3. Measurement of the Ion Beam Profile with the D-Pace Wire Scanner

Author

Sokolova, Evgeniya, Kasatov, Dmitriy, Kolesnikov, Yaroslav, Koshkarev, Alexey, Kuznetsov, Aleksandr, Makarov, Alexandr, Shchudlo, Ivan, Sorokin, Igor, and Taskaev, Sergey

Subjects

Physics::Accelerator Physics, Accelerator Physics, Medical and industrial applications

Abstract

In The Budker Institute of Nuclear Physics the accelerator-based source of epithermal neutrons was invented and now operates to be used in the boron neutron capture therapy. For several reasons the real beam flow in the facility differs from the calculated one. To take into account this distinction it is necessary to provide continuous monitoring of the beam parameters. In order to optimize the facility operation the beam should be followed not only during the formation but also while an acceleration takes place and the proton beam is thrown on the lithium target as the proton current and energy influence on the neutron output. In this way it seems to be a significant issue to measure the current, profile and also the position of the ion beam in a low-energy part of the accelerator. This work represents the results of experiments with the D-Pace WS-30 Wire Scanner Probe, which was installed in the low-energy part of the accelerator. The experiments were carried out under various conditions to vary the position and focusing control via the system of magnetic correcting elements. To correctly interpret experimental data it was necessary to take into account physical phenomena which occur during an experiment. In this way the effects which take place when the probe interacts with the beam were thoroughly considered. The obtained results allowed to restore the ion beam profile, define its size and position., Proceedings of the 25th Russian Particle Accelerator Conf., RuPAC2016, St. Petersburg, Russia

Published

2017

4. Development and Implementation of the Automation System of the Ion Source for BNCT

Author

Koshkarev, Alexey, Kuznetsov, Aleksandr, Sanin, Andrey, Savkin, Valerii, Taskaev, Sergey, and Zubarev, Petr

Subjects

inorganic chemicals, Quantitative Biology::Tissues and Organs, Physics::Medical Physics, Nuclear Theory, technology, industry, and agriculture, Physics::Accelerator Physics, Nuclear Experiment, Accelerator Physics, Control and diagnostic systems

Abstract

The new source of epithermal neutrons*, designed for boron neutron capture therapy (BNCT)** of cancer in oncology clinic, was proposed and developed in Budker Institute of Nuclear Physics. This method of treatment is effective against several currently incurable radioresistant tumors, such as brain glioblastoma and melanoma metastases. The neutron source includes a new type of accelerator: accelerator-tandem with vacuum insulation, lithium neutron generating target and neutron beam shaping assembly. Current accelerator produces a stationary 5 mA proton beam with 2 MeV energy, but this is not sufficient for therapy on humans. For conducting the experiment on humans it is necessary to create a new power rack for the ion source. The report summarizes results of the development and implementation of new power rack, with remote control and data collection systems, to reach 15 mA beam current. This system will increase the proton beam current and, as a result, the neutron yield, that is needed to heal people., Proceedings of the 25th Russian Particle Accelerator Conf., RuPAC2016, St. Petersburg, Russia

Published

2017