Differentials of Higher Order in Noncommutative Differential Geometry

In differential geometry, the notation dn f along with the corresponding formalism has fallen into disuse since the birth of exterior calculus. However, differentials of higher-order are useful objects that can be interpreted in terms of functions on iterated tangent bundles (or in terms of jets). We generalize this notion to the case of noncommutative differential geometry. For an arbitrary algebra A, people already know how to define the differential algebra ΩA of universal differential forms over A. We define Leibniz forms of order n (these are not forms of degree n, i.e. they are not elements of ΩnA) as particular elements of what we call the ‘iterated frame algebra’ of order n, FnA, which is itself defined as the2n tensor power of the algebra A. We give a system of generators for this iterated frame algebra and identify the A left-module of forms of order n as a particular vector subspace included in the space of universal 1-forms built over the iterated frame algebra of order n-1. We study the algebraic structure of these objects, recover the case of the commutative differential calculus of order n (Leibniz differentials) and give a few examples.