Two‐dimensional seismic processing is successful in media with little structural and velocity variation in the direction perpendicular to the plane defined by the acquisition direction and the vertical axis. If the subsurface is anisotropic, an additional limitation is that this plane is a plane of symmetry. Kinematic ray propagation can be considered as a two‐dimensional process in this type of medium. However, two‐dimensional processing in a true‐amplitude sense requires out‐of‐plane amplitude corrections in addition to compensation for in‐plane amplitude variation. We provide formulae for the out‐of‐plane geometrical spreading for P‐ and S‐waves in transversely isotropic and orthorhombic media. These are extensions of well‐known isotropic formulae.For isotropic and transversely isotropic media, the ray propagation is independent of the azimuthal angle. The azimuthal direction is defined with respect to a possibly tilted axis of symmetry. The out‐of‐plane spreading correction can then be calculated by integrating quantities which describe in‐plane kinematics along in‐plane rays. If, in addition, the medium varies only along the vertical direction and has a vertical axis of symmetry, no ray tracing need be carried out. All quantities affecting the out‐of‐plane geometrical spreading can be derived from traveltime information available at the observation surface.Orthorhombic media possess no rotational symmetry and the out‐of‐plane geometrical spreading includes parameters which, even in principle, are not invertible from in‐plane experiments. The exact and approximate formulae derived for P‐ and S‐waves are nevertheless useful for modelling purposes.
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