We investigate the modifications in the neutrino flavor oscillations under the influence
of a stochastic gravitational wave background (SGWB), in a scenario in which General Relativity is
modified by an additional Chern-Simons (CS) term. Assuming that the dark matter halo is in the
form of axions, the CS coupling modifies the pattern of the neutrino flavor oscillations at Earth
up to a total suppression in some frequency range. At the same time, the SGWB in the halo could
stimulate the axion decay into gravitons over a narrow frequency range, leading to a potentially
detectable resonance peak in the enhanced SGWB strain. A consistent picture would require these
features to potentially show up in neutrino detection from supernovae, gravitational wave
detectors, and experiments aimed at the search for axions in the Milky Way halo.