Quantum tomography of H ZZ, WW beyond leading order
Abstract
We revisit quantum tomography of H ZZ and H WW in the presence of higher-order corrections. We verify that neither the use of an effective spin analysing power (only for ZZ) or a photon veto are sufficient to render the naively-constructed spin density operators physical. A subtraction of higher-order corrections is thus necessary to perform consistent quantum tomography. Such corrections are small when compared to expected experimental uncertainties with current data. As a by-product, we point out the striking possibility to observe parity-violating effects in H WW.
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