Abstract
Pulse line ion accelerator based design for the neutralized drift chamber experiment
Highlights
The pulse line ion accelerator (PLIA) [1] provides a lowcost approach to accelerating well-controlled heavy ion beams to regimes of interest for the study of high energy density physics and warm dense matter [2,3]
A voltage pulse is applied to the front end of the PLIA and generates a traveling electromagnetic wave pulse moving down a helical structure
The application is to heat a target by use of an ion beam to the regime of warm dense matter and high energy density physics [8]
Summary
The pulse line ion accelerator (PLIA) [1] provides a lowcost approach to accelerating well-controlled heavy ion beams to regimes of interest for the study of high energy density physics and warm dense matter [2,3]. Since the voltage pulse can be applied immediately after the entire ion beam enters the helical pulse line, the tail of the ion beam is accelerated by the voltage waveform at earlier time and the pulse sweeps through the ion beam In this way the ion beam can be bunched. The simulation proceeds from the extraction of the particles at the source to the end of the accelerator IV, which discusses the possible future development of the PLIA approach
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