The minimal standard electroweak model can be tested by allowing all the solar neutrino fluxes, with undistorted energy spectra, to be free parameters in fitting the measured solar neutrino event rates, subject only to the condition that the total observed luminosity of the Sun be produced by nuclear fusion. The rates of the five experiments prior to SNO (chlorine, Kamiokande, SAGE, GALLEX, Super-Kamiokande) cannot be fit by an arbitrary choice of undistorted neutrino fluxes at the level of $2.5\sigma$ (formally 99% C.L.). Considering just SNO and Super-Kamiokande, the discrepancy is at the $3.3\sigma$ level ${(10\mathrm{}}^{-3}\hspace{0.5em}\mathrm{C}.\mathrm{L}.\mathrm{}).\mathrm{}$ If all six experiments are fit simultaneously, the formal discrepancy increases to $4\sigma$ $(7\mathrm{}\times {10}^{-5}\hspace{0.5em}\mathrm{C}.\mathrm{L}.\mathrm{}).\mathrm{}$ If the relative scaling in temperature of the nuclear reactions that produce ${}^7\mathrm{Be}$ and ${}^8\mathrm{B}$ neutrinos is taken into account, the formal discrepancy is at the $7.4\sigma$ level.

• Received 3 September 2001

DOI:https://doi.org/10.1103/PhysRevC.65.015802