Volume 217, November 2023, 112496
Investigation of intense pulsed ion beam generation by a magnetically insulated ion diode at a reduced impedance
Marat Kaikanov, Dosbol Nauruzbayev, Alshyn Abduvalov, Kanat Baigarin
Nazarbayev University, Astana, 010000, Kazakhstan
Received 22 March 2023, Revised 9 August 2023, Accepted 10 August 2023, Available online 11 August 2023, Version of Record 14 August 2023.
Abstract
The intense pulsed ion beam
(IPIB) generation was investigated at reduced impedance of a
magnetically insulated ion diode. The main goal of our research was to
obtain IPIB with adjustable parameters at low current densities. The diode impedance was varied by the external magnetic field current by setting the delay of the accelerator's trigger relative to the launch of the magnetic field generator. The B-applied ion diode adjustably generated IPIB with a current density in the range from 25 to 4 A/cm2. In the matched mode the accelerator generates the ion beam with a current density of about 100 A/cm2.
Obtained results of the IPIB current density adjustment allows to
irradiate samples in a single vacuum cycle without the change of
charging voltage of both magnetic field and accelerating voltage
generators. Gold films with a thickness of 10 nm deposited on
fluorine-doped tin oxide (FTO)/glass substrates were irradiated to
demonstrate the applicability of obtained IPIB for irradiation of thin
coatings without their deterioration. Single shot of IPIB with current
density of 20 A/cm2 transformed Au film to spherical micro-particles, while after irradiation at the same fluence with 5 pulses of IPIB with current density of 4 A/cm2 Au coating was preserved as a film.
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