In this Letter, the counterintuitive and largely unknown Raman activity of oxygen atoms is evaluated for its capacity to determine absolute densities in gases with significant O-density. The study involves C O 2 microwave plasma to generate a self-calibrating mixture and establish accurate cross sections for the 3 P 2 ↔ 3 P 1 and 3 P 2 ↔ 3 P 0 transitions. The approach requires conservation of stoichiometry, confirmed within experimental uncertainty by a 1D fluid model. The measurements yield σ J = 2 → 1 = 5.27 ± s y s : 0.53 r a n d : 0.17 × 10 − 31 c m 2 / s r and σ J = 2 → 0 = 2.11 ± s y s : 0.21 r a n d : 0.06 × 10 − 31 c m 2 / s r , and the detection limit is estimated to be 1 × 10 15 c m − 3 for systems without other scattering species.