Interaction of single-mode coherent light with dipole-forbidden two-level atoms via non-resonant virtual level is studied in this paper. It is shown that, in the case of two-photon resonance fluorescence, the atomic system generates three bands of correlated photon pairs with the carrier frequencies ω_k0, ω_k0 ± Γ, where Γ= [Ω² + (Δ/2)²]^1/2, 2Ω is the two-photon Rabi frequency and Δ is the detuning from the two-photon resonance. It is established that amplitude-squared squeezing occurs from the sidebands of the two-photon resonance fluorescence spectrum. When the atom number increases, the amplitude-squared squeezing also increases.