Kapitza Dynamics as a New Stabilization Mechanism for Heavy Tetraquarks

Abstract

We investigate a Kapitza-inspired mechanism in which rapid oscillations in the heavy-quark interaction generate an effective short-range repulsive term in the diquark--antidiquark potential. The resulting 1/r4 contribution prevents collapse at short distances and produces a stable minimum in the effective potential. Within a diquark--antidiquark picture, we construct a modified Cornell-type potential and analyze the spectrum of heavy tetraquarks using a Gaussian variational method. We compute the binding energies, wave functions, radii, and mass spectra of charm and bottom tetraquarks, including the X(3872), Tbb, and fully heavy bbbb states. The model reproduces the mass of the X(3872) and predicts a deeply bound Tbb state consistent with lattice QCD. The fully heavy bbbb mass also agrees with recent lattice determinations. Our results indicate that the Kapitza mechanism provides a natural and robust stabilization effect in multiquark systems and offers a unified description of molecular-like and compact tetraquark configurations.