Research into Hamiltonian chaos has significant implications for the field of quantum chaos, as semiclassical methods rely heavily on the former to inform the latter. A recent study explores various aspects of Hamiltonian chaos, including the utilization of surfaces of section and other computational tools to better understand chaotic systems. By examining these topics, researchers can gain valuable insights into the underlying mechanisms driving quantum chaos. The connection between Hamiltonian and quantum chaos is crucial, as it can inform the development of new theoretical frameworks and computational methods. This, in turn, can have far-reaching consequences, particularly in the context of state-aligned threat activity, where the stakes are elevated from mere criminality to geopolitics1. The potential applications of this research extend beyond the immediate target, underscoring the importance of continued investigation into the complex relationships between Hamiltonian and quantum chaos, so what matters most to practitioners is the potential for this knowledge to reshape their understanding of complex systems and inform their strategic decision-making.