Tests of electron flavor conservation with the Sudbury Neutrino Observatory.

We analyze tests of electron flavor conservation that can be performed at the Sudbury Neutrino Observatory ~SNO!. These tests, which utilize B solar neutrinos interacting with deuterium, measure ~1! the shape of the recoil electron spectrum in charged-current ~CC! interactions ~the CC spectrum shape!, and ~2! the ratio of the number of charged-current to neutral current ~NC! events ~the CC/NC ratio!. We determine standard model predictions for the CC spectral shape and for the CC/NC ratio, together with realistic estimates of their errors and the correlations between errors. We consider systematic uncertainties in the standard neutrino spectrum and in the charged-current and neutral current cross sections, the SNO energy resolution and absolute energy scale, and the SNO detection efficiencies. Assuming that either matter-enhanced or vacuum neutrino oscillations solve the solar neutrino problems, we calculate the confidence levels with which electron flavor nonconservation can be detected using either the CC spectrum shape or the CC/NC ratio, or both. If the SNO detector works as expected, the neutrino oscillation solutions that best fit the results of the four operating solar neutrino experiments can be distinguished unambiguously from the standard predictions of electron flavor conservation. @S0556-2821~96!00221-4#