Charge compensation and acceleration of a thick-walled high-current ion beam in induction linac

Charge compensation and acceleration of a thick-walled high-current ion beam in induction linac

At present, several methods of obtaining highcurrent ion beam, which are based on the use of induction accelerators and are applied to inertial controlled fusion (ICF) research, are being considered.

Gespeichert in:

Bibliographische Detailangaben
Veröffentlicht in:	Вопросы атомной науки и техники
Datum:	1999
Hauptverfasser:	Belova, N.G., Karas, V.I., Shulika, O.N.
Format:	Artikel
Sprache:	English
Veröffentlicht:	Національний науковий центр «Харківський фізико-технічний інститут» НАН України 1999
Online Zugang:	https://nasplib.isofts.kiev.ua/handle/123456789/81361
Tags:	Tag hinzufügen Keine Tags, Fügen Sie den ersten Tag hinzu!
Назва журналу:	Digital Library of Periodicals of National Academy of Sciences of Ukraine
Zitieren:	Charge compensation and acceleration of a thick-walled high-current ion beam in induction linac / N.G. Belova, V.I. Karas’, O.N. Shulika // Вопросы атомной науки и техники. — 1999. — № 3. — С. 77-78. — Бібліогр.: 16 назв. — англ.

Institution

Digital Library of Periodicals of National Academy of Sciences of Ukraine

Ähnliche Einträge

Linear induction accelerator with charge and current compensation
von: Karas', V.I., et al.
Veröffentlicht: (2001)

Нigh-current ion beam compensation in a section of an induction linac
von: Karas’, V.I., et al.
Veröffentlicht: (2018)

Dynamics of high-current ion beam in the drift gap of induction accelerator at different variants of charge compensation
von: Karas, V.I., et al.
Veröffentlicht: (2014)

Stability of the high-current ion beam compensated by electron beam in the induction LINAC drift gap filled with the dense electron cloud
von: Karas, V.I., et al.
Veröffentlicht: (2013)

Acceleration of compensated high-current ion beam with cusp magnetic electron insulation in the accelerating gap and subsequent compensation with an electron beam
von: Fedorovskaya, O.V., et al.
Veröffentlicht: (2023)

Acceleration of a high-current proton beam in a linear induction accelerator at its compensation by electron beams
von: Fedorovskaya, O.V., et al.
Veröffentlicht: (2022)

Computer simulation of high-current ion bunches transport and acceleration with additional space charge compensation by thermal electrons
von: Manuilenko, O.V., et al.
Veröffentlicht: (2014)

Stability of the high-current ion beam in drift gap of linear induction accelerator
von: Karas, V.I., et al.
Veröffentlicht: (2013)

Dynamics of the high-current ion beam in a section of the linear induction accelerator
von: Karas, V.I., et al.
Veröffentlicht: (2015)

Space charge effects and RF focusing of ribbon beam in ion linac
von: Masunov, E.S., et al.
Veröffentlicht: (2001)

Ion beam space charge neutralization using for beam intensity increase in linacs
von: Polozov, S.M.
Veröffentlicht: (2012)

High-current ion induction linac for heavy ion fusion : 2d3v numerical simulation
von: Bogdan, O.V., et al.
Veröffentlicht: (2008)

Duration of multipacting processes and discharges in the linac of ions
von: Lobzov, L.D., et al.
Veröffentlicht: (2009)

Power requirements for a high-current proton linac with radial focusing by an electron beam
von: Ivanov, B.I., et al.
Veröffentlicht: (2006)

On beam propagation stability in a linac accelerating channel based on combined RF-focusing
von: Tishkin, S.S., et al.
Veröffentlicht: (2019)

Particle dynamics in the injector of ion linear induction accelerator
von: Karas’, V.I., et al.
Veröffentlicht: (2019)

Coulomb limit for accelerating current in a linac accelerating channel based on combined RF focusing
von: Tishkin, S.S., et al.
Veröffentlicht: (2020)

Short pulse electron linac with full beam loading compensation
von: Mytrochenko, V.V., et al.
Veröffentlicht: (2020)

Numerical simulation of high-current ion beam transportation at the presence of compensating electron beams in a LIA section
von: Karas’, V.I., et al.
Veröffentlicht: (2017)

Transport and acceleration of the high-current ion beam in magneto-isolated gap
von: Karas, V.I., et al.
Veröffentlicht: (2015)

Nanosecond diagnostics of proton beam current impulse with wall current monitor on MMF LINAC
von: Men’shov, A.A., et al.
Veröffentlicht: (1999)

Simulation of the initial part of a high-current proton accelerator with focusing by an electron beam
von: Ivanov, B.I., et al.
Veröffentlicht: (2004)

Using of electron cyclotron resonance discharge in ion beam sputtering systems for space charge compensation
von: Bizyukov, A.A., et al.
Veröffentlicht: (2019)

An accelerating&focusing structure with combined RF focusing for heavy ion accelerator
von: Dyachenko, A.F., et al.
Veröffentlicht: (2014)

An accelerating channel of intermediate part of high-current proton linac based on combined focusing by rf field
von: Tishkin, S.S., et al.
Veröffentlicht: (2020)

Ion beam dynamics in superconducting drift tube linac
von: Masunov, E.S., et al.
Veröffentlicht: (2010)

Numerical modeling of high current ion beam transport with additional injection of electron beams in drift and accelerating gaps of LIA
von: Karas, V.I., et al.
Veröffentlicht: (2016)

Simulation of the compensation of a high-current ion beam by an electron beam in a cusp magnetic system
von: Onishchenko, I.N., et al.
Veröffentlicht: (2021)

Generation of compensated ion beams from source with oscillating electrons
von: Borisko, V.N., et al.
Veröffentlicht: (2000)

High-current ion linac calculation
von: Gavrilov, N.M., et al.
Veröffentlicht: (2001)

Acceleration of the short high-current compensated ion bunches in the peaked fence magnetic field with additional space charge compensation by thermal electrons: 2d3v PIC simulation
von: Manuilenko, O.V.
Veröffentlicht: (2013)

Current compensation of hydrogen ion beam extracted from PIG with metal-hydride cathode
von: Borisko, V.N., et al.
Veröffentlicht: (2007)

Engineering of the low-energy beam transport line in the He⁺ ions linac
von: Dubniuk, S.N., et al.
Veröffentlicht: (2021)

Self-exited generator system of RF-power supply of the one-section linear ion accelerator
von: Lobzov, L.D., et al.
Veröffentlicht: (2001)

Using BEAMDULAC code for multi-beam dynamics investigation in ion linac
von: Masunov, E.S., et al.
Veröffentlicht: (2008)

Accelerating of intense beams of light ions at the MILAC
von: Bomko, V.A., et al.
Veröffentlicht: (1999)

Compensation of isotope effects at the near solvation of singly charged ions in light and heavy waters
von: V. I. Bulavin, et al.
Veröffentlicht: (2022)

Electron beam welding of large-size thick-walled structures of magnesium alloy
von: V. M. Nesterenkov, et al.
Veröffentlicht: (2014)

Accelerating section for technological electron linac
von: Ayzatsky, M.I., et al.
Veröffentlicht: (2016)

Monitoring of the electron beam position in industrial linacs
von: Boriskin, V.N., et al.
Veröffentlicht: (2001)