Effects of high magnetic field on the microstructure and magnetic properties of Fe80Ni20 thin films with different thickness values

The spiral generator, based on the principle of the electric field vector inversion, is capable of delivering repetitive high-voltage nanosecond pulses in the commercial portable pulsed x-ray source and gas switch trigger source. However, the spiral generator suffers from extremely low output efficiency, which significantly affects the compactness and accelerates the insulation film breakdown at electrode foil edges since the high charging voltage is required. A novel output efficiency improvement method for the spiral generator was proposed, implementing the permalloy film inside the passive layer to optimize internal voltage wave propagation processes during the pulser erection. Output characteristics and influential factors of the modified spiral generator are experimentally determined, and the wave propagation processes are analyzed. The significant output efficiency improvement (approximately from 10% to 30% combined with ferrite cores at the center) is seminal for the portable x-ray source and gas switch trigger source of compactness and long operation lifetime.

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Effects of high magnetic field on the microstructure and magnetic properties of Fe80Ni20 thin films with different thickness values

Cited by 4 publications

References 27 publications

Wafer-level metal thin film thickness scanning based on multiple probe wavelengths nanosecond transient thermoreflectance

Wafer-level metal thin film thickness scanning based on multiple probe wavelengths nanosecond transient thermoreflectance

Microstructural evolution and magnetic properties of nanocrystalline Fe films prepared in a high magnetic field

An efficiency improvement method for high-voltage nanosecond pulse spiral generator based on optimized voltage wave propagation process

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