Reconstruction Between Generalized Hybrid Metric--Palatini Gravity and (R,φ,X) Theories

Abstract

We develop a local reconstruction framework between (R,φ,X) theories with linear dependence on X and generalized hybrid metric--Palatini gravity. The construction is formulated in vacuum in the Einstein frame, where both formulations can be written as two-scalar theories with the same field-space geometry. The framework provides a practical method for finding (R,φ,X) and f(R, R) functions that describe the same regular Einstein-frame two-scalar sector. Starting from a given (R,φ,X) model, we derive the equation that determines the compatible hybrid functions f(R, R) and show that it has a Clairaut-type structure. We also show that the inverse reconstruction is not unique: a regular hybrid Einstein-frame potential determines a family of compatible (R,φ,X) theories, parametrized by the kinetic coupling. Explicit examples illustrate the reconstruction procedure, its domain of validity, and the translation of model parameters between the (R,φ,X) and f(R, R) formulations.