Asymptotic profiles for the Cauchy problem of semilinear beam equation with two variable coefficients in the subcritical case

Referee: [Proof via energy estimates (as described in the abstract)] The transformation to self-similar variables renders the two variable coefficients explicitly τ-dependent (evaluated at y e^{-τ/4}). The manuscript must demonstrate explicitly how the time derivative of the weighted energy functional controls the resulting non-dissipative cross terms; the subcritical power alone does not automatically cancel these structural contributions, which are load-bearing for closing the a priori bounds and passing to the limit τ → ∞.

Authors: We agree that explicit control of the cross terms is essential. After the change of variables, the coefficients a(y e^{-τ/4}) and b(y e^{-τ/4}) produce additional terms when differentiating the weighted energy E(τ). These are handled by expanding dE/dτ, integrating by parts against the beam operator, and using the weighted Sobolev structure together with the subcritical exponent to absorb the resulting lower-order contributions into the main dissipative integral via Young's inequality. The exponential decay built into the weights further ensures that any residual τ-dependent factors remain integrable or can be absorbed for large τ, allowing the a priori bound to close and the limit τ → ∞ to be taken. To address the referee's concern directly, we will revise Section 3 by inserting a dedicated computation that isolates and bounds each cross term arising from the τ-derivatives of the coefficients. revision: yes