On a generalization of the Poincaré Lemma to equations of the type dw + a ∧ w = f

Strutt, D2018-11-082018-11-082018-11-08201810.57262/die/1516676430https://infoscience.epfl.ch/handle/20.500.14299/150695We study the system of linear partial differential equations given by dw + a Lambda w = f, on open subsets of R-n, together with the algebraic equation da Lambda u = beta, where a is a given 1-form, f is a given (k + 1)-form, beta is a given k + 2-form, w and u are unknown k-forms. We show that if rank[da] >= 2(k+1) those equations have at most one solution, if rank[da] equivalent to 2m >= 2(k + 2) they are equivalent with beta = df + a Lambda f and if rank[da] equivalent to 2m >= 2(n - k) the first equation always admits a solution. Moreover, the differential equation is closely linked to the Poincare lemma. Nevertheless, as soon as a is nonexact, the addition of the term a Lambda w drastically changes the problem.On a generalization of the Poincaré Lemma to equations of the type dw + a ∧ w = ftext::journal::journal article::research article