Scaling approach to rigid and soft nuclear deformation through flow fluctuations in high-energy nuclear collisions

Abstract

The nature of octupole deformation, whether static or vibrational, remains an open question in nuclear physics. Here, we propose a scaling approach to probe this ambiguity by triangular flow fluctuations using multi-particle cumulants, c3,\4\, in relativistic 238U+238U collisions. We demonstrate that both |c3,\4\| and the ratio |c3,\4\/c23,\2\| scale linearly with the fourth-order moment of octupole deformation, β43,U . Combined with the known linear relation of c3,\2\ to β23,U , this new relation provides a direct extraction of both the mean and variance of the octupole deformation fluctuations, finally discriminating between static and dynamic origins. This work establishes a new tool to probe the static and dynamic collective modes in high-energy nuclear collisions, advancing a significant step toward refining the initial conditions of quark-gluon plasma.