Scaling laws, as an understanding and summary of the properties of multi-scale complex systems, have always been an important part of the inertial confinement fusion (ICF) ignition physics. Accurate scaling laws can not only deepen our understanding of ICF ignition physics, but also guide the design of ICF capsule with high neutron yield. In this report, our propose a new method, so-called the self-organized criticality (SOC) method, to study the scaling laws of ICF ignition physics. Due to the universality of this method, the scaling laws obtained are agree well with published theoretical and experimental results. This method can be used as an effective supplement to the traditional ICF research methods, and its calculation results are more direct than those of the traditional methods in some cases.
 

Self-Organized Criticality, Ignition Scaling Laws