A simple model is presented of the formation of the spiral the (z,v_z) phase
plane of solar-neighbourhood stars that was recently discovered in Gaia data.
The key is that the frequency Omega_z at which stars oscillate vertically
depends on angular momentum about the z axis in addition to the amplitude of
the star's vertical oscillations. Spirals should form in both and
whenever a massive substructure, such as the Sgr dwarf galaxy, passes through
the Galactic plane. The model yields similar spirals to those observed in both
and . The primary driver is the component of the tidal force that
lies in the plane. We investigate the longevity of the spirals and the mass of
the substructure, but the approximations inherent in the model make
quantitative results unreliable. The work relies heavily on a self-consistent,
multi-component model of our Galaxy produced by the AGAMA package for f(J)
modelling.Comment: 6 pages submitted to MNRA
