proton-boron-11 fusion under effect of the temperature turbulence

The temperature turbulence generated by the ponderomotive force of the high-power laser can significantly modify p-11b fusion reactivity. the results of this study have shown that higher temperature turbulence leads to an increased requirement for the confinement parameter in p-11b fuel. as a result, achieving ignition necessitates greater driver energy and a longer development time. additionally, a 50% reduction in the temperature turbulence parameter yields a substantial 71% decrease in the confinement parameter, accompanied by a 21% increase in the maximum fusion energy fraction. when the temperature turbulence exceeds a value of 10, the bremsstrahlung surpasses the fusion power, making ignition unattainable. the findings underscore the importance of maintaining temperature turbulence below 1 to approach the ignition conditions required for p-11b fuel.

proton-boron-11 fusion under effect of the temperature turbulence

the temperature turbulence generated by the ponderomotive force of the high-power laser can significantly modify p-11b fusion reactivity. the results of this study have shown that higher temperature turbulence leads to an increased requirement for the confinement parameter in p-11b fuel. as a result, achieving ignition necessitates greater driver energy and a longer development time. additionally, a 50% reduction in the temperature turbulence parameter yields a substantial 71% decrease in the confinement parameter, accompanied by a 21% increase in the maximum fusion energy fraction. when the temperature turbulence exceeds a value of 10, the bremsstrahlung surpasses the fusion power, making ignition unattainable. the findings underscore the importance of maintaining temperature turbulence below 1 to approach the ignition conditions required for p-11b fuel.