2022
DOI: 10.1088/2058-6272/ac78cc
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Pushing the limits of existing plasma focus towards 1016 fusion neutrons with Q = 0.01

Abstract: Existing conventional megajoule plasma focus machines with 2–3 MA are producing fusion neutron yields of several times 1011 in deuterium operation, the fusion yields being predominantly beam-gas target. Increasing the current to 10 MA and using 50%-50% D-T mixture would scale the neutron yield towards 1016 D-T fusion neutrons. In this work, we derive the Lawson criterion for plasma focus devices with beam-target fusion neutron mechanism, so that we may glimpse what future technological advancements are needed … Show more

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Cited by 3 publications
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“…Increasing the taper ratio to 50 (for example, taper from 20 cm radius down to 4 mm) numerical simulation shows a pinch temperature of 200 keV in a pinch with radius 0.7 mm and length of 5 mm. Using a mixture of hydrogen and boron, aneutronic fusion may be expected using this tapered anode [25][26][27]. The ability to control temperature and volume are exceptional features of this method.…”
Section: Testing the Scaling With Numerical Simulationmentioning
confidence: 99%
“…Increasing the taper ratio to 50 (for example, taper from 20 cm radius down to 4 mm) numerical simulation shows a pinch temperature of 200 keV in a pinch with radius 0.7 mm and length of 5 mm. Using a mixture of hydrogen and boron, aneutronic fusion may be expected using this tapered anode [25][26][27]. The ability to control temperature and volume are exceptional features of this method.…”
Section: Testing the Scaling With Numerical Simulationmentioning
confidence: 99%